在大样本量的危重病患者中，预测连续脑电图（cEEG）上延迟癫痫发作检测的风险因素。

Risk factors that predict delayed seizure detection on continuous electroencephalogram (cEEG) in a large sample size of critically ill patients.

机构信息

Epilepsy Center, Neurological Institute, Cleveland Clinic, Cleveland, Ohio, USA.

University of Virginia School of Medicine, Charlottesville, Virginia, USA.

出版信息

Epilepsia Open. 2022 Mar;7(1):131-143. doi: 10.1002/epi4.12572. Epub 2021 Dec 23.

DOI:10.1002/epi4.12572

PMID:34913615

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8886063/

Abstract

OBJECTIVE

Majority of seizures are detected within 24 hours on continuous EEG (cEEG). Some patients have delayed seizure detection after 24 hours. The purpose of this research was to identify risk factors that predict delayed seizure detection and to determine optimal cEEG duration for various patient subpopulations.

METHODS

We retrospectively identified all patients ≥18 years of age who underwent cEEG at Cleveland clinic during calendar year 2016. Clinical and EEG data for all patients and time to seizure detection for seizure patients were collected.

RESULTS

Twenty-four hundred and two patients met inclusion criteria. Of these, 316 (13.2%) had subclinical seizures. Sixty-five (20.6%) patients had delayed seizures detection after 24 hours. Seizure detection increased linearly till 36 hours of monitoring, and odds of seizure detection increased by 46% for every additional day of monitoring. Delayed seizure risk factors included stupor (13.2% after 48 hours, P = .031), lethargy (25.9%, P = .013), lateralized (LPDs) (27.7%, P = .029) or generalized periodic discharges (GPDs) (33.3%, P = .022), acute brain insults (25.5%, P = .036), brain bleeds (32.8%, P = .014), especially multiple concomitant bleeds (61.1%, P < .001), altered mental status (34.7%, P = .001) as primary cEEG indication, and use of antiseizure medications (27.8%, P < .001) at cEEG initiation.

SIGNIFICANCE

Given the linear seizure detection trend, 36 hours of standard monitoring appears more optimal than 24 hours especially for high-risk patients. For awake patients without epileptiform discharges, <24 hours of monitoring appears sufficient. Previous studies have shown that coma and LPDs predict delayed seizure detection. We found that stupor and lethargy were also associated with delayed seizure detection. LPDs and GPDs were associated with delayed seizures. Other delayed seizure risk factors included acute brain insults, brain bleeds especially multiple concomitant bleeds, altered mental status as primary cEEG indication, and use of ASMs at cEEG initiation. Longer cEEG (≥48 hours) is suggested for these high-risk patients.

摘要

目的

大多数癫痫发作可在连续脑电图（cEEG）24 小时内检测到。有些患者在 24 小时后才出现延迟性癫痫发作。本研究旨在确定预测延迟性癫痫发作的危险因素，并确定各种患者亚群的最佳 cEEG 持续时间。

方法

我们回顾性地确定了 2016 年克利夫兰诊所接受 cEEG 的所有年龄≥18 岁的患者。收集了所有患者的临床和脑电图数据以及癫痫患者的癫痫发作检测时间。

结果

2402 名患者符合纳入标准。其中 316 例（13.2%）有亚临床癫痫发作。65 例（20.6%）患者在 24 小时后出现延迟性癫痫发作。癫痫发作的检测一直呈线性增加，直到监测 36 小时，并且每增加一天监测，癫痫发作的检测几率增加 46%。延迟性癫痫发作的危险因素包括昏迷（48 小时后 13.2%，P=0.031）、昏睡（25.9%，P=0.013）、局灶性（LPDs）（27.7%，P=0.029）或全身性周期性放电（GPDs）（33.3%，P=0.022）、急性脑损伤（25.5%，P=0.036）、脑出血（32.8%，P=0.014），尤其是多发性同时出血（61.1%，P<0.001）、意识改变（34.7%，P=0.001）为 cEEG 的主要适应证，以及 cEEG 开始时使用抗癫痫药物（27.8%，P<0.001）。

意义

鉴于癫痫发作的线性检测趋势，36 小时的标准监测似乎比 24 小时更优，尤其是对于高危患者。对于没有癫痫样放电的清醒患者，<24 小时的监测似乎就足够了。先前的研究表明，昏迷和 LPDs 可预测延迟性癫痫发作。我们发现昏迷和昏睡也与延迟性癫痫发作有关。LPDs 和 GPDs 与延迟性癫痫发作有关。其他延迟性癫痫发作的危险因素包括急性脑损伤、脑出血（尤其是多发性同时出血）、意识改变作为 cEEG 的主要适应证，以及 cEEG 开始时使用 ASM。对于这些高危患者，建议进行更长时间的 cEEG（≥48 小时）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6977/8886063/4f2ddb628d8a/EPI4-7-131-g001.jpg

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在大样本量的危重病患者中，预测连续脑电图（cEEG）上延迟癫痫发作检测的风险因素。

Risk factors that predict delayed seizure detection on continuous electroencephalogram (cEEG) in a large sample size of critically ill patients.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

SIGNIFICANCE

目的

方法

结果

意义

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