Departments of1Neurological Surgery.
2Neurology and Neurotherapeutics, and.
J Neurosurg. 2020 Jan 1;132(1):27-32. doi: 10.3171/2018.9.JNS181928. Epub 2019 Jan 11.
Cerebral vasospasm causing delayed cerebral ischemia (DCI) is a source of significant morbidity after subarachnoid hemorrhage (SAH). Transcranial Doppler is used at most institutions to detect sonographic vasospasm but has poor positive predictive value for DCI. Automated assessment of the pupillary light reflex has been increasingly used as a reliable way of assessing pupillary reactivity, and the Neurological Pupil Index (NPi) has been shown to decrease hours prior to the clinical manifestation of ischemic injury or herniation syndromes. The aim of this study was to investigate the role of automated pupillometry in the setting of SAH, as a potential adjunct to TCD.
Our analysis included patients that had been diagnosed with aneurysmal SAH and admitted to the neuro-intensive care unit of the University of Texas Southwestern Medical Center between November 2015 and June 2017. A dynamic infrared pupillometer was used for all pupillary measurements. An NPi value ranging from 3 to 5 was considered normal, and from 0 to 2.9 abnormal. Sonographic vasospasm was defined as middle cerebral artery velocities greater than 100 cm/sec with a Lindegaard ratio greater than 3 on either side on transcranial Doppler. Most patients had multiple NPi readings daily and we retained the lowest value for our analysis. We aimed to study the association between DCI and sonographic vasospasm, and DCI and NPi readings.
A total of 56 patients were included in the final analysis with 635 paired observations of daily TCD and NPi data. There was no statistically significant association between the NPi value and the presence of sonographic vasospasm. There was a significant association between DCI and sonographic vasospasm, χ2(1) = 6.4112, p = 0.0113, OR 1.6419 (95% CI 1.1163-2.4150), and between DCI and an abnormal decrease in NPi, χ2(1) = 38.4456, p < 0.001, OR 3.3930 (95% CI 2.2789-5.0517). Twelve patients experienced DCI, with 7 showing a decrease of their NPi to an abnormal range. This change occurred > 8 hours prior to the clinical decline 71.4% of the time. The NPi normalized in all patients after treatment of their vasospasm.
Isolated sonographic vasospasm does not seem to correlate with NPi changes, as the latter likely reflects an ischemic neurological injury. NPi changes are strongly associated with the advent of DCI and could be an early herald of clinical deterioration.
蛛网膜下腔出血(SAH)后迟发性脑缺血(DCI)是引起脑血管痉挛的主要原因。大多数机构都使用经颅多普勒检测超声血管痉挛,但对 DCI 的阳性预测价值较差。瞳孔光反射的自动评估已越来越多地被用作评估瞳孔反应的可靠方法,神经瞳孔指数(NPi)已被证明在发生缺血性损伤或脑疝综合征的临床症状之前数小时下降。本研究旨在探讨自动瞳孔测量在 SAH 中的作用,作为 TCD 的辅助手段。
我们的分析包括 2015 年 11 月至 2017 年 6 月期间在德克萨斯大学西南医学中心神经重症监护病房被诊断为颅内动脉瘤性 SAH 的患者。所有瞳孔测量均使用动态红外瞳孔计进行。NPi 值为 3 至 5 被认为是正常的,0 至 2.9 为异常。超声血管痉挛定义为经颅多普勒两侧大脑中动脉速度大于 100cm/sec,林德加德比率大于 3。大多数患者每天进行多次 NPi 读数,我们保留了分析中的最低值。我们旨在研究 DCI 与超声血管痉挛之间的关系,以及 DCI 与 NPi 读数之间的关系。
最终分析共纳入 56 例患者,共进行了 635 次每日 TCD 和 NPi 数据配对观察。NPi 值与超声血管痉挛的存在之间没有统计学上的显著相关性。DCI 与超声血管痉挛之间存在显著相关性,χ2(1)=6.4112,p=0.0113,OR 1.6419(95%CI 1.1163-2.4150),DCI 与 NPi 异常下降之间也存在显著相关性,χ2(1)=38.4456,p<0.001,OR 3.3930(95%CI 2.2789-5.0517)。12 例患者发生 DCI,其中 7 例 NPi 下降至异常范围。这种变化在 71.4%的时间里发生在临床下降之前超过 8 小时。在治疗血管痉挛后,所有患者的 NPi 均恢复正常。
孤立的超声血管痉挛似乎与 NPi 变化无关,因为后者可能反映了缺血性神经损伤。NPi 变化与 DCI 的发生密切相关,可能是临床恶化的早期先兆。
