纤维环切开术可引起神经根的形态、血管及功能改变。一项实验研究。

Incision of the anulus fibrosus induces nerve root morphologic, vascular, and functional changes. An experimental study.

作者信息

Kayama S, Konno S, Olmarker K, Yabuki S, Kikuchi S

机构信息

Department of Orthopaedic Surgery, Fukushima Medical College, Japan.

出版信息

Spine (Phila Pa 1976). 1996 Nov 15;21(22):2539-43. doi: 10.1097/00007632-199611150-00002.

DOI:10.1097/00007632-199611150-00002

PMID:8961440

Abstract

STUDY DESIGN

The effects on nerve root structure, vasculature, and function after incision of the adjacent disc was studied in a dog model.

OBJECTIVES

To see if only incision of the disc per se is sufficient for inducing similar changes.

SUMMARY OF BACKGROUND DATA

It is well known that nucleus pulposus will induce nerve root structural and functional changes in experimental situations. In these previous studies, relatively large amounts of nucleus pulposus were applied.

METHODS

The left L7 nerve root was exposed and mobilized in 10 dogs. In five dogs, the adjacent L6-L7 disc was incised, and in five other dogs, the disc was not incised. After 7 days, nerve conduction velocity was recorded, and specimens were obtained for histologic evaluation.

RESULTS

The nerve conduction velocity was significantly lower in the incision group (13 +/- 14 m/sec) compared with the nonincision group (73 +/- 5 m/sec). Structural changes of the axons were more pronounced in the incision group, however, the degree and distribution was too limited to fully account for the neurophysiologic reactions observed. There aims were obvious signs of capillary stasis with an increased number and diameter of the intraneural capillaries in the incision group.

CONCLUSIONS

The present study indicated that incision of the anulus fibrosus is sufficient to induce significant morphologic and functional changes and that vascular mechanisms may be of importance for the observed changes. These experimental data suggest that leakage of nucleus pulposus material from anular tears, with injury to adjacent nerve roots, might be one pathophysiologic mechanism in patients with low back pain and sciatica but with no radiologic or surgical evidence of disc herniation.

摘要

研究设计

在犬模型中研究相邻椎间盘切开术后对神经根结构、血管系统及功能的影响。

目的

观察仅椎间盘本身切开是否足以引发类似变化。

背景资料总结

众所周知，在实验条件下髓核会引起神经根结构和功能改变。在这些既往研究中，应用了相对大量的髓核。

方法

对10只犬暴露并游离左侧L7神经根。5只犬切开相邻的L6-L7椎间盘，另外5只犬不切开椎间盘。7天后，记录神经传导速度，并获取标本进行组织学评估。

结果

与未切开组（73±5米/秒）相比，切开组的神经传导速度显著降低（13±14米/秒）。切开组轴突的结构变化更明显，然而，其程度和分布过于局限，无法完全解释所观察到的神经生理反应。切开组有明显的毛细血管淤滞迹象，神经内毛细血管数量和直径增加。

结论

本研究表明，纤维环切开足以引发显著的形态学和功能变化，并且血管机制可能对所观察到的变化具有重要意义。这些实验数据表明，髓核物质从纤维环撕裂处漏出并损伤相邻神经根，可能是无椎间盘突出影像学或手术证据的腰痛和坐骨神经痛患者的一种病理生理机制。

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纤维环切开术可引起神经根的形态、血管及功能改变。一项实验研究。

Incision of the anulus fibrosus induces nerve root morphologic, vascular, and functional changes. An experimental study.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVES

SUMMARY OF BACKGROUND DATA

METHODS

RESULTS

CONCLUSIONS

研究设计

目的

背景资料总结

方法

结果

结论

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