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自发性颅内低血压患者硬脑膜缺陷 360°修复的后路入路和脊髓松解术。

Posterior Approach and Spinal Cord Release for 360° Repair of Dural Defects in Spontaneous Intracranial Hypotension.

机构信息

Department of Neurosurgery, Inselspital, Bern University Hospital, University of Bern, Switzerland.

Department of Neurosurgery, Cedars-Sinai, Los Angeles, California.

出版信息

Neurosurgery. 2019 Jun 1;84(6):E345-E351. doi: 10.1093/neuros/nyy312.

DOI:10.1093/neuros/nyy312
PMID:30053151
Abstract

BACKGROUND

Spinal cerebrospinal fluid (CSF) leaks are the cause of spontaneous intracranial hypotension (SIH).

OBJECTIVE

To propose a surgical strategy, stratified according to anatomic location of the leak, for sealing all CSF leaks around the 360° circumference of the dura through a single tailored posterior approach.

METHODS

All consecutive SIH patients undergoing spinal surgery were included. The anatomic site of the leak was exactly localized. We used a tailored hemilaminotomy and intraoperative neurophysiological monitoring (IOM) for all cases. Neurological status was assessed before and up to 90 d after surgery.

RESULTS

Forty-seven SIH patients had an identified CSF leak between the levels C6 and L1. Leaks, anterior to the spinal cord, were approached by a transdural trajectory (n = 28). Leaks lateral to the spinal cord by a direct extradural trajectory (n = 17) and foraminal leaks by a foraminal microsurgical trajectory (n = 2). The transdural trajectory necessitated cutting the dentate ligament accompanied by elevation and rotation of the spinal cord under continuous neuromonitoring (spinal cord release maneuver, SCRM). Four patients had transient defiticts, none had permanent neurological deficits. We propose an anatomic classification of CSF leaks into I ventral (77%, anterior dural sac), II lateral (19%, including nerve root exit, lateral, and dorsal dural sac), and III foraminal (4%).

CONCLUSION

Safe sealing (with IOM) of all CSF leaks around the 360° surface of the dura is feasible through a single posterior approach. The exact surgical trajectory is selected according to the anatomic category of the leak.

摘要

背景

脊柱脑脊髓液(CSF)漏是自发性颅内低血压(SIH)的原因。

目的

提出一种根据漏口解剖位置分层的手术策略,通过单一的后入路对硬脑膜 360° 圆周的所有 CSF 漏进行封闭。

方法

所有连续接受脊柱手术的 SIH 患者均纳入研究。精确定位漏口的解剖位置。所有病例均采用定制的半椎板切开术和术中神经生理监测(IOM)。在术前和术后 90d 评估神经状态。

结果

47 例 SIH 患者在 C6 至 L1 之间发现 CSF 漏。脊髓前方的漏口通过硬脑膜内入路(n=28)处理。脊髓外侧的漏口通过直接硬膜外入路(n=17),神经孔漏口通过神经孔显微外科入路(n=2)处理。硬脑膜内入路需要切开齿状韧带,并在连续神经监测下提升和旋转脊髓(脊髓松解术,SCRM)。4 例患者出现短暂性缺损,无一例出现永久性神经功能缺损。我们提出了一种 CSF 漏的解剖分类,分为 I 型(77%,前硬脊膜囊)、II 型(19%,包括神经根出口、侧方和背侧硬脊膜囊)和 III 型(4%,神经孔)。

结论

通过单一的后入路可以安全(通过 IOM)封闭硬脑膜 360°表面的所有 CSF 漏。根据漏口的解剖类别选择确切的手术入路。

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