体位和轴向负荷对椎管形态的影响：一项关于中央型椎管狭窄的MRI研究

The effect of body position and axial load on spinal canal morphology: an MRI study of central spinal stenosis.

作者信息

Madsen Rasmus, Jensen Tue Secher, Pope Malcolm, Sørensen Joan Solgaard, Bendix Tom

机构信息

Institute of Sports Science and Clinical Biomechanics, Part of Clinical Locomotion Science, University of Southern Denmark, Denmark.

出版信息

Spine (Phila Pa 1976). 2008 Jan 1;33(1):61-7. doi: 10.1097/BRS.0b013e31815e395f.

DOI:10.1097/BRS.0b013e31815e395f

PMID:18165750

Abstract

STUDY DESIGN

A method comparison study.

OBJECTIVE

To investigate the effect of body position and axial load of the lumbar spine on disc height, lumbar lordosis, and dural sac cross-sectional area (DCSA). SUMMARY OF BACKGROUND DATA.: The effects of flexion and extension on spinal canal diameters and DCSA are well documented. However, the effects of axial loading, achieved by upright standing or by a compression device, are still unclear.

METHODS

Patients with lumbar spinal stenosis were examined in 2 separate studies, including 16 and 20 patients, respectively. In section 1, magnetic resonance imaging (MRI) scans were performed during upright standing and supine positions with and without axial load. In section 2, MRI scans were performed exclusively in supine positions, one with flexion of the lumbar spine (psoas-relaxed position), an extended position (legs straight), and an extended position with applied axial loading. Disc height, lumbar lordosis, and DCSA were measured and the different positions were compared.

RESULTS

In section 1, the only significant difference between positions was a reduced lumbar lordosis during standing when compared with lying (P = 0.04), most probably a consequence of precautions taken to secure immobility during the vertical scans. This seemingly makes our standing posture less valuable as a standard of reference. In section 2, DCSA was reduced at all 5 lumbar levels after extension, and further reduced at 2 levels after adding compression (P < 0.05). Significant reductions of disc height were found at 3 motion segments and of DCSA at 11 segments after compression, but these changes were never seen in the same motion segment.

CONCLUSION

Horizontal MRI with the patient supine and the legs straightened was comparable to vertical MRI whether axial compression was added or not. Extensionwas the dominant cause rather than compression in reducing DCSA. Axial load was not considered to have a clinically relevant effect on spinal canal diameters.

摘要

研究设计

一项方法比较研究。

目的

探讨腰椎的体位和轴向负荷对椎间盘高度、腰椎前凸及硬脊膜囊横截面积（DCSA）的影响。

背景资料总结

屈伸对椎管直径和DCSA的影响已有充分记录。然而，通过直立站立或使用加压装置实现的轴向负荷的影响仍不明确。

方法

对腰椎管狭窄患者进行了两项独立研究，分别纳入16例和20例患者。在第1部分中，在直立站立和仰卧位时，分别在有无轴向负荷的情况下进行磁共振成像（MRI）扫描。在第2部分中，仅在仰卧位进行MRI扫描，一种是腰椎屈曲（腰大肌放松位），一种是伸展位（双腿伸直），还有一种是施加轴向负荷的伸展位。测量椎间盘高度、腰椎前凸和DCSA，并比较不同体位。

结果

在第1部分中，各体位之间唯一显著的差异是站立时的腰椎前凸比卧位时减小（P = 0.04），这很可能是垂直扫描时为确保不动而采取的预防措施的结果。这似乎使我们的站立姿势作为参考标准的价值降低。在第2部分中，伸展后所有5个腰椎节段的DCSA均减小，施加加压后2个节段的DCSA进一步减小（P < 0.05）。加压后，在3个运动节段发现椎间盘高度显著降低，在11个节段发现DCSA显著降低，但这些变化从未在同一运动节段出现。

结论

无论是否施加轴向加压，患者仰卧且双腿伸直的水平位MRI与垂直位MRI相当。伸展是导致DCSA减小的主要原因而非加压。轴向负荷对椎管直径没有临床相关影响。

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体位和轴向负荷对椎管形态的影响：一项关于中央型椎管狭窄的MRI研究

The effect of body position and axial load on spinal canal morphology: an MRI study of central spinal stenosis.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVE

METHODS

RESULTS

CONCLUSION

研究设计

目的

背景资料总结

方法

结果

结论

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