颅内脑电图中发作间期显著尖波的自动检测：一种算法的验证及其与癫痫发作起始区的关系

Automatic detection of prominent interictal spikes in intracranial EEG: validation of an algorithm and relationsip to the seizure onset zone.

作者信息

Gaspard Nicolas, Alkawadri Rafeed, Farooque Pue, Goncharova Irina I, Zaveri Hitten P

机构信息

Comprehensive Epilepsy Center and Computational Neurophysiology Laboratory, Dept. of Neurology, School of Medicine, Yale University, Yale-New Haven Hospital, New Haven, CT, USA.

出版信息

Clin Neurophysiol. 2014 Jun;125(6):1095-103. doi: 10.1016/j.clinph.2013.10.021. Epub 2013 Nov 5.

DOI:10.1016/j.clinph.2013.10.021

PMID:24269092

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5123744/

Abstract

OBJECTIVE

To develop an algorithm for the automatic quantitative description and detection of spikes in the intracranial EEG and quantify the relationship between prominent spikes and the seizure onset zone.

METHODS

An algorithm was developed for the quantification of time-frequency properties of spikes (upslope, instantaneous energy, downslope) and their statistical representation in a univariate generalized extreme value distribution. Its performance was evaluated in comparison to expert detection of spikes in intracranial EEG recordings from 10 patients. It was subsequently used in 18 patients to detect prominent spikes and quantify their spatial relationship to the seizure onset area.

RESULTS

The algorithm displayed an average sensitivity of 63.4% with a false detection rate of 3.2 per minute for the detection of individual spikes and an average sensitivity of 88.6% with a false detection rate of 1.4% for the detection of intracranial EEG contacts containing the most prominent spikes. Prominent spikes occurred closer to the seizure onset area than less prominent spikes but they overlapped with it only in a minority of cases (3/18).

CONCLUSIONS

Automatic detection and quantification of the morphology of spikes increases their utility to localize the seizure onset area. Prominent spikes tend to originate mostly from contacts located in the close vicinity of the seizure onset area rather than from within it.

SIGNIFICANCE

Quantitative analysis of time-frequency characteristics and spatial distribution of intracranial spikes provides complementary information that may be useful for the localization of the seizure-onset zone.

摘要

目的

开发一种算法，用于自动定量描述和检测颅内脑电图中的尖波，并量化显著尖波与癫痫发作起始区之间的关系。

方法

开发了一种算法，用于量化尖波的时频特性（上升斜率、瞬时能量、下降斜率）及其在单变量广义极值分布中的统计表示。将其性能与10例患者颅内脑电图记录中专家检测尖波的结果进行比较评估。随后，该算法用于18例患者，以检测显著尖波并量化它们与癫痫发作起始区域的空间关系。

结果

对于单个尖波的检测，该算法的平均灵敏度为63.4%，误检率为每分钟3.2次；对于包含最显著尖波的颅内脑电图触点的检测，平均灵敏度为88.6%，误检率为1.4%。显著尖波比不太显著的尖波更靠近癫痫发作起始区域，但它们仅在少数情况下（3/18）与之重叠。

结论

尖波形态的自动检测和量化提高了其在定位癫痫发作起始区域方面的效用。显著尖波大多倾向于起源于癫痫发作起始区域附近的触点，而不是起源于其内部。

意义

颅内尖波的时频特征和空间分布的定量分析提供了补充信息，可能有助于癫痫发作起始区的定位。

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