• Scand J Surg · Dec 2020

    Noninvasive Neuromonitoring of Hypothermic Circulatory Arrest in Aortic Surgery.

    • J A Stewart, SärkeläM O KMOKGE Healthcare Finland Oy, Helsinki, Finland., T Salmi, J Wennervirta, A P Vakkuri, T L S Vainikka, R Suojaranta, K Mäki, V H Ilkka, H Viertiö-Oja, and U-S Salminen.
    • Department of Cardiology, Heart and Lung Center, Helsinki University Hospital (HUS) and University of Helsinki, Helsinki, Finland.
    • Scand J Surg. 2020 Dec 1; 109 (4): 320-327.

    Background And AimsCirculatory 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.Materials And MethodsThirty 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).ResultsA 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.ConclusionThe 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.

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