Staarmann Brittany, O'Neal Kelly, Magner Mark, Zuccarello Mario
Department of Neurosurgery, University of Cincinnati College of Medicine, Comprehensive Stroke Center at University of Cincinnati Gardner Neuroscience Institute, Cincinnati, Ohio, USA.
Evokes, Cincinnati, Ohio, USA.
World Neurosurg. 2017 Apr;100:522-530. doi: 10.1016/j.wneu.2017.01.009. Epub 2017 Jan 13.
Patients who undergo clipping of cerebral aneurysms face an inherent risk for new postoperative neurologic deficits. Intraoperative neuromonitoring (IONM) is used often for early detection of ischemic changes, while it is still potentially reversible. However, the value, safety, and efficacy of temporary clipping and multimodal IONM to minimize risks are debated. Our retrospective series examined the sensitivity and specificity of IONM using transcranial motor evoked potentials and somatosensory evoked potentials and quantified the safety of temporary clipping by duration and vascular territory.
Our prospectively collected database (2010-2013) included 123 consecutive patients who underwent clipping of 133 cerebral aneurysms with use of IONM. We determined postoperative deficit rate and sensitivity and specificity of monitoring to predict these changes intraoperatively. The rate of permanent deficit after temporary clipping was correlated with duration, vascular territory, and IONM findings.
Of 133 clipped aneurysms, 15 instances of IONM changes occurred, including 12 temporary without new postoperative deficit and 3 permanent with new postoperative deficit. Somatosensory evoked potential monitoring predicted one of the permanent deficits and transcranial motor evoked potentials predicted the other 2 deficits.
Multimodal IONM was highly specific and sensitive for detecting new deficits. Three patients with new deficits had temporary clipping, including 2 patients with IONM changes not temporally associated with clip placement. Our 1.1% rate of permanent neurologic deficit attributed to temporary clipping support its safety. Differences in patterns of IONM changes among vascular territories warrant further investigation.
接受脑动脉瘤夹闭术的患者面临术后出现新的神经功能缺损的固有风险。术中神经监测(IONM)常用于早期检测缺血性变化,此时这些变化仍有可能逆转。然而,临时夹闭和多模式IONM在将风险降至最低方面的价值、安全性和有效性仍存在争议。我们的回顾性系列研究检测了使用经颅运动诱发电位和体感诱发电位的IONM的敏感性和特异性,并通过持续时间和血管区域对临时夹闭的安全性进行了量化。
我们前瞻性收集的数据库(2010 - 2013年)包括123例连续接受IONM辅助下133个脑动脉瘤夹闭术的患者。我们确定了术后缺损率以及监测在术中预测这些变化的敏感性和特异性。临时夹闭后永久性缺损的发生率与持续时间、血管区域和IONM结果相关。
在133个夹闭的动脉瘤中,发生了15次IONM变化,包括12次临时变化且术后无新的缺损,3次永久性变化且术后有新的缺损。体感诱发电位监测预测到了1例永久性缺损,经颅运动诱发电位预测到了另外2例缺损。
多模式IONM在检测新的缺损方面具有高度的特异性和敏感性。3例出现新缺损的患者进行了临时夹闭,其中2例IONM变化与夹闭放置在时间上无关联。我们因临时夹闭导致的1.1%的永久性神经功能缺损发生率支持了其安全性。不同血管区域IONM变化模式的差异值得进一步研究。
