The seizure severity score: a quantitative tool for comparing seizures and their response to therapy.

IF 3.7 3区 医学 Q2 ENGINEERING, BIOMEDICAL Journal of neural engineering Pub Date : 2023-08-10 DOI:10.1088/1741-2552/aceca1
Akash R Pattnaik, Nina J Ghosn, Ian Z Ong, Andrew Y Revell, William K S Ojemann, Brittany H Scheid, Georgia Georgostathi, John M Bernabei, Erin C Conrad, Saurabh R Sinha, Kathryn A Davis, Nishant Sinha, Brian Litt
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Abstract

Objective.Epilepsy is a neurological disorder characterized by recurrent seizures which vary widely in severity, from clinically silent to prolonged convulsions. Measuring severity is crucial for guiding therapy, particularly when complete control is not possible. Seizure diaries, the current standard for guiding therapy, are insensitive to the duration of events or the propagation of seizure activity across the brain. We present a quantitative seizure severity score that incorporates electroencephalography (EEG) and clinical data and demonstrate how it can guide epilepsy therapies.Approach.We collected intracranial EEG and clinical semiology data from 54 epilepsy patients who had 256 seizures during invasive, in-hospital presurgical evaluation. We applied an absolute slope algorithm to EEG recordings to identify seizing channels. From this data, we developed a seizure severity score that combines seizure duration, spread, and semiology using non-negative matrix factorization. For validation, we assessed its correlation with independent measures of epilepsy burden: seizure types, epilepsy duration, a pharmacokinetic model of medication load, and response to epilepsy surgery. We investigated the association between the seizure severity score and preictal network features.Main results.The seizure severity score augmented clinical classification by objectively delineating seizure duration and spread from recordings in available electrodes. Lower preictal medication loads were associated with higher seizure severity scores (p= 0.018, 97.5% confidence interval = [-1.242, -0.116]) and lower pre-surgical severity was associated with better surgical outcome (p= 0.042). In 85% of patients with multiple seizure types, greater preictal change from baseline was associated with higher severity.Significance.We present a quantitative measure of seizure severity that includes EEG and clinical features, validated on gold standard in-patient recordings. We provide a framework for extending our tool's utility to ambulatory EEG devices, for linking it to seizure semiology measured by wearable sensors, and as a tool to advance data-driven epilepsy care.

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癫痫发作严重程度评分:比较癫痫发作及其对治疗反应的定量工具。
目的:癫痫是一种以反复发作为特征的神经系统疾病,其严重程度从临床无症状到长期抽搐不等。测量严重程度对于指导治疗至关重要,尤其是在无法完全控制的情况下。癫痫日记是目前指导治疗的标准,对事件的持续时间或癫痫活动在大脑中的传播不敏感。我们提出了一种结合脑电图(EEG)和临床数据的定量癫痫发作严重程度评分,并展示了它如何指导癫痫治疗。方法:我们收集了54名癫痫患者的颅内脑电图和临床符号学数据,这些患者在侵入性、住院术前评估中有256次癫痫发作。我们将绝对斜率算法应用于脑电图记录,以识别捕获通道。根据这些数据,我们使用非负矩阵因子分解结合了癫痫发作持续时间、传播和符号学,得出了癫痫发作严重程度评分。为了验证,我们评估了它与癫痫负担的独立测量的相关性:癫痫发作类型、癫痫持续时间、药物负荷的药代动力学模型和对癫痫手术的反应。我们研究了癫痫发作严重程度评分与发作前网络特征之间的关系。主要结果。癫痫发作严重程度评分通过客观地描绘癫痫发作的持续时间和从可用电极的记录中扩散来增强临床分类。较低的发作前药物负荷与较高的癫痫发作严重程度评分相关(p=0.018,97.5%置信区间=[1.442,-0.116]),较低的术前严重程度与较好的手术结果相关(p=0.042)。在85%的多种癫痫发作类型的患者中,与基线相比发作前变化越大,严重程度越高。意义。我们提出了一种癫痫发作严重程度的定量测量方法,包括脑电图和临床特征,并在金标准住院记录中进行了验证。我们提供了一个框架,用于将我们的工具的实用性扩展到动态脑电图设备,将其与可穿戴传感器测量的癫痫症状学联系起来,并作为推进数据驱动癫痫护理的工具。
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来源期刊
Journal of neural engineering
Journal of neural engineering 工程技术-工程:生物医学
CiteScore
7.80
自引率
12.50%
发文量
319
审稿时长
4.2 months
期刊介绍: The goal of Journal of Neural Engineering (JNE) is to act as a forum for the interdisciplinary field of neural engineering where neuroscientists, neurobiologists and engineers can publish their work in one periodical that bridges the gap between neuroscience and engineering. The journal publishes articles in the field of neural engineering at the molecular, cellular and systems levels. The scope of the journal encompasses experimental, computational, theoretical, clinical and applied aspects of: Innovative neurotechnology; Brain-machine (computer) interface; Neural interfacing; Bioelectronic medicines; Neuromodulation; Neural prostheses; Neural control; Neuro-rehabilitation; Neurorobotics; Optical neural engineering; Neural circuits: artificial & biological; Neuromorphic engineering; Neural tissue regeneration; Neural signal processing; Theoretical and computational neuroscience; Systems neuroscience; Translational neuroscience; Neuroimaging.
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