MIRA institute for Biomedical Engineering and Technical Medicine, University of Twente, Enschede, The Netherlands.
Crit Care Med. 2012 Oct;40(10):2867-75. doi: 10.1097/CCM.0b013e31825b94f0.
To evaluate the value of continuous electroencephalography in early prognostication in patients treated with hypothermia after cardiac arrest.
Prospective cohort study.
Medical intensive care unit.
Sixty patients admitted to the intensive care unit for therapeutic hypothermia after cardiac arrest.
None.
In all patients, continuous electroencephalogram and daily somatosensory evoked potentials were recorded during the first 5 days of admission or until intensive care unit discharge. Neurological outcomes were based on each patient's best achieved Cerebral Performance Category score within 6 months. Twenty-seven of 56 patients (48%) achieved good neurological outcome (Cerebral Performance Category score 1-2).At 12 hrs after resuscitation, 43% of the patients with good neurological outcome showed continuous, diffuse slow electroencephalogram rhythms, whereas this was never observed in patients with poor outcome.The sensitivity for predicting poor neurological outcome of low-voltage and isoelectric electroencephalogram patterns 24 hrs after resuscitation was 40% (95% confidence interval 19%-64%) with a 100% specificity (confidence interval 86%-100%), whereas the sensitivity and specificity of absent somatosensory evoked potential responses during the first 24 hrs were 24% (confidence interval 10%-44%) and 100% (confidence interval: 87%-100%), respectively. The negative predictive value for poor outcome of low-voltage and isoelectric electroencephalogram patterns was 68% (confidence interval 50%-81%) compared to 55% (confidence interval 40%-60%) for bilateral somatosensory evoked potential absence, both with a positive predictive value of 100% (confidence interval 63%-100% and 59%-100% respectively). Burst-suppression patterns after 24 hrs were also associated with poor neurological outcome, but not inevitably so.
In patients treated with hypothermia, electroencephalogram monitoring during the first 24 hrs after resuscitation can contribute to the prediction of both good and poor neurological outcome. Continuous patterns within 12 hrs predicted good outcome. Isoelectric or low-voltage electroencephalograms after 24 hrs predicted poor outcome with a sensitivity almost two times larger than bilateral absent somatosensory evoked potential responses.
评估连续脑电图在心脏骤停后接受低温治疗患者早期预后中的价值。
前瞻性队列研究。
重症监护病房。
60 名因心脏骤停而接受重症监护病房治疗性低温治疗的患者。
无。
在所有患者中,在入院后第 1 至 5 天或直至重症监护病房出院期间,连续记录脑电图和每日体感诱发电位。神经功能预后基于每位患者 6 个月内获得的最佳脑功能分类评分。56 例患者中有 27 例(48%)获得良好的神经功能预后(脑功能分类评分 1-2)。在复苏后 12 小时,43%的神经功能预后良好的患者表现出连续弥漫性慢脑电图节律,而神经功能预后不良的患者从未出现这种情况。复苏后 24 小时低电压和等电位脑电图模式预测不良神经功能预后的敏感性为 40%(95%置信区间 19%-64%),特异性为 100%(置信区间 86%-100%),而前 24 小时体感诱发电位反应缺失的敏感性和特异性分别为 24%(置信区间 10%-44%)和 100%(置信区间:87%-100%)。低电压和等电位脑电图模式不良预后的阴性预测值为 68%(置信区间 50%-81%),而双侧体感诱发电位缺失的阴性预测值为 55%(置信区间 40%-60%),两者的阳性预测值均为 100%(置信区间 63%-100%和 59%-100%)。复苏后 24 小时出现爆发抑制模式也与不良神经功能预后相关,但并非必然如此。
在接受低温治疗的患者中,复苏后 24 小时内的脑电图监测有助于预测良好和不良的神经功能预后。复苏后 12 小时内的连续模式预测预后良好。复苏后 24 小时的等电位或低电压脑电图预测预后不良,其敏感性几乎是双侧体感诱发电位缺失的两倍。
