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猪马尾神经血流的激光多普勒研究。马尾神经单部位和双部位低压压迫期间神经根电刺激的影响。

Laser Doppler study of porcine cauda equina blood flow. The effect of electrical stimulation of the rootlets during single and double site, low pressure compression of the cauda equina.

作者信息

Baker A R, Collins T A, Porter R W, Kidd C

机构信息

Department of Biomedical Sciences, University of Aberdeen, Scotland.

出版信息

Spine (Phila Pa 1976). 1995 Mar 15;20(6):660-4. doi: 10.1097/00007632-199503150-00005.

DOI:10.1097/00007632-199503150-00005
PMID:7604341
Abstract

STUDY DESIGN

This study involved a model of spinal claudication to assess the effect of single and double site compressions on blood flow in porcine cauda equina. Real-time monitoring of blood flow was achieved by using laser Doppler probes.

OBJECTIVES

To ascertain the difference between single and double site compressions on blood flow and nerve conduction in the cauda equina. Also, to provide possible explanations for the mechanisms underlying the pathophysiology of neurogenic claudication.

SUMMARY OF BACKGROUND DATA

The model used was based on that of K. Olmarker. Double as compared with single site compression of cauda equina showed impaired nerve impulse propagation and decreased blood flow.

METHOD

Pigs weighing 22-27 kg were anesthesized and the cauda equina was exposed by dorsal laminectomy of the sacral and first three coccygeal vertebrae. Polyethylene balloons were placed over the rootlets at the first and third coccygeal segments, and stimulating electrodes were positioned on the rootlets proximally to evoke motor activity. Electromyographic activity was monitored from tail musculature. Laser Doppler probes monitored blood flow in the cauda equina both between and distal to the two compression sites.

RESULTS

Single site, low level compression did not affect blood flow whereas double site compression decreased it profoundly. Proximal stimulation caused a marked increase in blood flow, which was not sustained during prolonged compression. Electromyographic activity diminished concomitantly during this compression.

CONCLUSIONS

Low pressure, double site compression significantly reduces cauda equina blood flow and prevents the sustained increase in blood flow required to maintain normal neurologic rootlet function. Local blood flow failure may therefore be responsible for claudication symptoms.

摘要

研究设计

本研究采用脊髓间歇性跛行模型,以评估单部位和双部位压迫对猪马尾神经血流的影响。通过使用激光多普勒探头实现对血流的实时监测。

目的

确定单部位和双部位压迫在马尾神经血流和神经传导方面的差异。此外,为神经源性间歇性跛行病理生理学的潜在机制提供可能的解释。

背景数据总结

所使用的模型基于K. Olmarker的模型。与单部位压迫相比,马尾神经双部位压迫显示神经冲动传导受损且血流减少。

方法

对体重22 - 27千克的猪进行麻醉,通过骶骨和前三节尾椎的背部椎板切除术暴露马尾神经。将聚乙烯球囊放置在第一和第三节尾椎节段的神经根上,并将刺激电极置于近端神经根上以诱发运动活动。从尾部肌肉监测肌电图活动。激光多普勒探头监测两个压迫部位之间以及远端马尾神经的血流。

结果

单部位低水平压迫不影响血流,而双部位压迫则使其显著减少。近端刺激导致血流显著增加,但在长时间压迫期间这种增加无法持续。在此压迫期间,肌电图活动随之减弱。

结论

低压力双部位压迫显著降低马尾神经血流,并阻止维持正常神经根功能所需的血流持续增加。因此,局部血流衰竭可能是间歇性跛行症状的原因。

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