与皮质丘脑完整性相关的新皮质活动动态模式与心脏骤停后急性缺氧性脑损伤的预后相关。
Dynamic regimes of neocortical activity linked to corticothalamic integrity correlate with outcomes in acute anoxic brain injury after cardiac arrest.
作者信息
Forgacs Peter B, Frey Hans-Peter, Velazquez Angela, Thompson Stephanie, Brodie Daniel, Moitra Vivek, Rabani Leroy, Park Soojin, Agarwal Sachin, Falo Maria Cristina, Schiff Nicholas D, Claassen Jan
机构信息
Feil Family Brain and Mind Research Institute and Department of Neurology Weill Cornell Medical College New York New York; Center for Clinical and Translational Science The Rockefeller University New York New York.
Division of Critical Care Neurology Department of Neurology Columbia University College of Physicians and Surgeons New York New York.
出版信息
Ann Clin Transl Neurol. 2017 Jan 6;4(2):119-129. doi: 10.1002/acn3.385. eCollection 2017 Feb.
OBJECTIVE
Recognition of potential for neurological recovery in patients who remain comatose after cardiac arrest is challenging and strains clinical decision making. Here, we utilize an approach that is based on physiological principles underlying recovery of consciousness and show correlation with clinical recovery after acute anoxic brain injury.
METHODS
A cohort study of 54 patients admitted to an Intensive Care Unit after cardiac arrest who underwent standardized bedside behavioral testing (Coma Recovery Scale - Revised [CRS-R]) during EEG monitoring. Blinded to all clinical variables, artifact-free EEG segments were selected around maximally aroused states and analyzed using a multi-taper method to assess frequency spectral content. EEG spectral features were assessed based on pre-defined categories that are linked to anterior forebrain corticothalamic integrity. Clinical outcomes were determined at the time of hospital discharge, using Cerebral Performance Categories (CPC).
RESULTS
Ten patients with ongoing seizures, myogenic artifacts or technical limitations obscuring recognition of underlying cortical dynamic activity were excluded from primary analysis. Of the 44 remaining patients with distinct EEG spectral features, 39 (88%) fit into our predefined categories. In these patients, spectral features corresponding to higher levels of anterior forebrain corticothalamic integrity correlated with higher levels of consciousness and favorable clinical outcome at the time of hospital discharge ( = 0.014).
INTERPRETATION
Predicted transitions of neocortical dynamics that indicate functional integrity of anterior forebrain corticothalamic circuitry correlate with clinical outcomes in postcardiac-arrest patients. Our results support a new biologically driven approach toward better understanding of neurological recovery after cardiac arrest.
目的
识别心脏骤停后仍昏迷患者的神经恢复潜力具有挑战性,给临床决策带来压力。在此,我们采用一种基于意识恢复的生理原理的方法,并显示其与急性缺氧性脑损伤后的临床恢复相关。
方法
对54例心脏骤停后入住重症监护病房的患者进行队列研究,这些患者在脑电图监测期间接受了标准化的床边行为测试(昏迷恢复量表修订版[CRS-R])。在对所有临床变量不知情的情况下,在最大唤醒状态周围选择无伪迹的脑电图片段,并使用多 taper 方法进行分析以评估频谱内容。基于与前脑皮质丘脑完整性相关的预定义类别评估脑电图频谱特征。在出院时使用脑功能分类(CPC)确定临床结果。
结果
10例有持续癫痫发作、肌源性伪迹或技术限制而妨碍对潜在皮质动态活动识别的患者被排除在主要分析之外。在其余44例具有明显脑电图频谱特征的患者中,39例(88%)符合我们的预定义类别。在这些患者中,与较高水平的前脑皮质丘脑完整性相对应的频谱特征与出院时较高的意识水平和良好的临床结果相关( = 0.014)。
解读
预测的新皮质动力学转变表明前脑皮质丘脑回路的功能完整性与心脏骤停后患者的临床结果相关。我们的结果支持一种新的生物学驱动方法,以更好地理解心脏骤停后的神经恢复。
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