独立成分分析揭示了局灶性癫痫患者 EEG-fMRI 数据中的动态发作期 BOLD 反应。

Independent component analysis reveals dynamic ictal BOLD responses in EEG-fMRI data from focal epilepsy patients.

机构信息

Montreal Neurological Institute, McGill University, 3801 University Street, Montreal, QC, Canada.

出版信息

Neuroimage. 2010 Jan 1;49(1):366-78. doi: 10.1016/j.neuroimage.2009.07.064. Epub 2009 Aug 6.

DOI:10.1016/j.neuroimage.2009.07.064

PMID:19647798

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3779215/

Abstract

INTRODUCTION

Seizures occur rarely during EEG-fMRI acquisitions of epilepsy patients, but can potentially offer a better estimation of the epileptogenic zone than interictal activity. Independent component analysis (ICA) is a data-driven method that imposes minimal constraints on the hemodynamic response function (HRF). In particular, the investigation of HRFs with clear peaks, but varying latency, may be used to differentiate the ictal focus from propagated activity.

METHODS

ICA was applied on ictal EEG-fMRI data from 15 patients. Components related to seizures were identified by fitting an HRF to the component time courses at the time of the ictal EEG events. HRFs with a clear peak were used to derive maps of significant BOLD responses and their associated peak delay. The results were then compared with those obtained from a general linear model (GLM) method. Concordance with the presumed epileptogenic focus was also assessed.

RESULTS

The ICA maps were significantly correlated with the GLM maps for each patient (Spearman's test, p<0.05). The ictal BOLD responses identified by ICA always included the presumed epileptogenic zone, but were also more widespread, accounting for 20.3% of the brain volume on average. The method provided a classification of the components as a function of peak delay. BOLD response clusters associated with early HRF peaks were concordant with the suspected epileptogenic focus, while subsequent HRF peaks may correspond to ictal propagation.

CONCLUSION

ICA applied to EEG-fMRI can detect areas of significant BOLD response to ictal events without having to predefine an HRF. By estimating the HRF peak time in each identified region, the method could also potentially provide a dynamic analysis of ictal BOLD responses, distinguishing onset from propagated activity.

摘要

简介

在癫痫患者的 EEG-fMRI 采集过程中，癫痫发作很少发生，但与发作间期活动相比，它可能提供更好的致痫区估计。独立成分分析（ICA）是一种数据驱动的方法，对血流动力学响应函数（HRF）施加的约束最小。特别是，研究具有明显峰值但潜伏期不同的 HRF，可以用于区分癫痫发作焦点与传播活动。

方法

我们对 15 例患者的癫痫发作 EEG-fMRI 数据进行了 ICA 分析。通过在癫痫 EEG 事件发生时对成分时间历程拟合 HRF，确定与癫痫发作相关的成分。使用具有明显峰值的 HRF 来推导显著 BOLD 反应及其相关的峰值延迟图。然后将结果与从广义线性模型（GLM）方法获得的结果进行比较。还评估了与假定的致痫灶的一致性。

结果

ICA 图谱与每位患者的 GLM 图谱显著相关（Spearman 检验，p<0.05）。ICA 确定的癫痫发作 BOLD 反应始终包括假定的致痫区，但也更广泛，平均占大脑体积的 20.3%。该方法根据峰值延迟对成分进行分类。与早期 HRF 峰值相关的 BOLD 反应簇与可疑致痫灶一致，而随后的 HRF 峰值可能对应于癫痫发作传播。

结论

ICA 应用于 EEG-fMRI 可以在无需预先定义 HRF 的情况下检测到对癫痫发作事件的显著 BOLD 反应区域。通过估计每个识别区域的 HRF 峰值时间，该方法还可以潜在地提供癫痫发作 BOLD 反应的动态分析，区分起始与传播活动。

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