Department of Cardiology, Heart and Lung Center, Helsinki University Hospital (HUS) and University of Helsinki, Helsinki, Finland.
GE Healthcare Finland Oy, Helsinki, Finland.
Scand J Surg. 2020 Dec;109(4):320-327. doi: 10.1177/1457496919863942. Epub 2019 Jul 17.
Circulatory arrest carries a high risk of neurological damage, but modern monitoring methods lack reliability, and is susceptible to the generalized effects of both anesthesia and hypothermia. The objective of this prospective, explorative study was to research promising, reliable, and noninvasive methods of neuromonitoring, capable of predicting neurological outcome after hypothermic circulatory arrest.
Thirty patients undergoing hypothermic circulatory arrest during surgery of the thoracic aorta were recruited in a single center and over the course of 4 years. Neuromonitoring was performed with a four-channel electroencephalogram montage and a near-infrared spectroscopy monitor. All data were tested off-line against primary neurological outcome, which was poor if the patient suffered a significant neurological complication (stroke, operative death).
A poor primary neurological outcome seen in 10 (33%) patients. A majority (63%) of the cases were emergency surgery, and thus, no neurological baseline evaluation was possible. The frontal hemispheric asymmetry of electroencephalogram, as measured by the brain symmetry index, predicted primary neurological outcome with a sensitivity of 79 (interquartile range; 62%-88%) and specificity of 71 (interquartile range; 61%-84%) during the first 6 h after end of circulatory arrest.
The hemispheric asymmetry of frontal electroencephalogram is inherently resistant to generalized dampening effects and is predictive of primary neurological outcome. The brain symmetry index provides an easy-to-use, noninvasive neuromonitoring method for surgery of the thoracic aorta and postoperative intensive care.
循环停止会带来高风险的神经损伤,但现代监测方法缺乏可靠性,且易受到麻醉和低温的全身性影响。本前瞻性探索性研究旨在研究有前途、可靠且无创的神经监测方法,以预测低温循环停止后的神经功能结局。
在单一中心和 4 年内,共招募了 30 名在胸主动脉手术中经历低温循环停止的患者。使用四通道脑电图和近红外光谱监测仪进行神经监测。所有数据均离线测试,主要神经结局不良者视为阳性,即患者发生显著神经并发症(中风、手术死亡)。
10 名(33%)患者的主要神经结局不良。大多数(63%)患者为急诊手术,因此无法进行神经基线评估。脑电图的半球间不对称性(以脑对称指数测量)在循环停止结束后 6 小时内预测主要神经结局,其敏感性为 79%(四分位距;62%-88%),特异性为 71%(四分位距;61%-84%)。
额部脑电图的半球间不对称性固有地抵抗全身性抑制效应,可预测主要神经结局。脑对称指数为胸主动脉手术和术后重症监护提供了一种易于使用的无创神经监测方法。
