冷却新生儿的自动脑电图不连续性可预测脑部磁共振成像及神经发育结局。

Automated electroencephalographic discontinuity in cooled newborns predicts cerebral MRI and neurodevelopmental outcome.

作者信息

Dunne Jonathan M, Wertheim David, Clarke Paul, Kapellou Olga, Chisholm Philippa, Boardman James P, Shah Divyen K

机构信息

Barts and the London Medical School, London, UK.

Kingston University, London, UK.

出版信息

Arch Dis Child Fetal Neonatal Ed. 2017 Jan;102(1):F58-F64. doi: 10.1136/archdischild-2015-309697. Epub 2016 Apr 21.

DOI:10.1136/archdischild-2015-309697

PMID:27103657

Abstract

BACKGROUND AND HYPOTHESIS

Prolonged electroencephalographic (EEG) discontinuity has been associated with poor neurodevelopmental outcomes after perinatal asphyxia but its predictive value in the era of therapeutic hypothermia (TH) is unknown. In infants undergoing TH for hypoxic-ischaemic encephalopathy (HIE) prolonged EEG discontinuity is associated with cerebral tissue injury on MRI and adverse neurodevelopmental outcome.

METHOD

Retrospective study of term neonates from three UK centres who received TH for perinatal asphyxia, had continuous two channel amplitude-integrated EEG with EEG for a minimum of 48 h, brain MRI within 6 weeks of birth and neurodevelopmental outcome data at a median age of 24 months. Mean discontinuity was calculated using a novel automated algorithm designed for analysis of the raw EEG signal.

RESULTS

Of 49 eligible infants, 17 (35%) had MR images predictive of death or severe neurodisability (unfavourable outcome) and 29 (59%) infants had electrographic seizures. In multivariable logistic regression, mean discontinuity at 24 h and 48 h (both p=0.01), and high seizure burden (p=0.05) were associated with severe cerebral tissue injury on MRI. A mean discontinuity >30 s/min-long epoch, had a specificity and positive predictive value of 100%, sensitivity of 71% and a negative predictive value of 88% for unfavourable neurodevelopmental outcome at a 10 µV threshold.

CONCLUSIONS

In addition to seizure burden, excessive EEG discontinuity is associated with increased cerebral tissue injury on MRI and is predictive of abnormal neurodevelopmental outcome in infants treated with TH. The high positive predictive value of EEG discontinuity at 24 h may be valuable in selecting newborns with HIE for adjunctive treatments.

摘要

背景与假设

围产期窒息后，长时间脑电图（EEG）不连续与不良神经发育结局相关，但在治疗性低温（TH）时代，其预测价值尚不清楚。在因缺氧缺血性脑病（HIE）接受TH治疗的婴儿中，长时间EEG不连续与MRI上的脑组织损伤及不良神经发育结局相关。

方法

对来自英国三个中心的足月新生儿进行回顾性研究，这些新生儿因围产期窒息接受TH治疗，连续进行两通道振幅整合EEG检查至少48小时，在出生后6周内进行脑部MRI检查，并在中位年龄24个月时获取神经发育结局数据。使用一种专为分析原始EEG信号设计的新型自动算法计算平均不连续时间。

结果

在49名符合条件的婴儿中，17名（35%）的MRI图像预测有死亡或严重神经残疾（不良结局），29名（59%）婴儿有脑电图癫痫发作。在多变量逻辑回归中，24小时和48小时的平均不连续时间（均p=0.01）以及高癫痫负荷（p=0.05）与MRI上的严重脑组织损伤相关。在10µV阈值下，平均不连续时间>30秒/分钟长时段，对不良神经发育结局的特异性和阳性预测值为100%，敏感性为71%，阴性预测值为88%。

结论

除癫痫负荷外，EEG过度不连续与MRI上脑组织损伤增加相关，并可预测接受TH治疗婴儿的异常神经发育结局。24小时时EEG不连续的高阳性预测值可能对选择HIE新生儿进行辅助治疗有价值。

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冷却新生儿的自动脑电图不连续性可预测脑部磁共振成像及神经发育结局。

Automated electroencephalographic discontinuity in cooled newborns predicts cerebral MRI and neurodevelopmental outcome.

作者信息

机构信息

出版信息

BACKGROUND AND HYPOTHESIS

METHOD

RESULTS

CONCLUSIONS

背景与假设

方法

结果

结论

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