Modeling the complex dynamics and changing correlations of epileptic events

IF 5.1 2区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Drausin F. Wulsin , Emily B. Fox , Brian Litt
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引用次数: 22

Abstract

Patients with epilepsy can manifest short, sub-clinical epileptic “bursts” in addition to full-blown clinical seizures. We believe the relationship between these two classes of events—something not previously studied quantitatively—could yield important insights into the nature and intrinsic dynamics of seizures. A goal of our work is to parse these complex epileptic events into distinct dynamic regimes. A challenge posed by the intracranial EEG (iEEG) data we study is the fact that the number and placement of electrodes can vary between patients. We develop a Bayesian nonparametric Markov switching process that allows for (i) shared dynamic regimes between a variable number of channels, (ii) asynchronous regime-switching, and (iii) an unknown dictionary of dynamic regimes. We encode a sparse and changing set of dependencies between the channels using a Markov-switching Gaussian graphical model for the innovations process driving the channel dynamics and demonstrate the importance of this model in parsing and out-of-sample predictions of iEEG data. We show that our model produces intuitive state assignments that can help automate clinical analysis of seizures and enable the comparison of sub-clinical bursts and full clinical seizures.

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模拟复杂的动态和变化的相关性癫痫事件
癫痫患者除了全面的临床发作外,还可能出现短暂的亚临床癫痫“爆发”。我们相信,这两类事件之间的关系——以前没有进行过定量研究——可以对癫痫发作的本质和内在动力学产生重要的见解。我们工作的目标是将这些复杂的癫痫事件解析成不同的动态机制。我们研究的颅内脑电图(iEEG)数据带来的一个挑战是,电极的数量和位置在患者之间可能有所不同。我们开发了一个贝叶斯非参数马尔可夫切换过程,它允许(i)在可变数量的通道之间共享动态状态,(ii)异步状态切换,以及(iii)动态状态的未知字典。我们使用马尔可夫切换高斯图形模型对通道之间的稀疏和变化依赖性进行编码,用于驱动通道动态的创新过程,并证明该模型在分析和样本外预测iEEG数据中的重要性。我们表明,我们的模型产生直观的状态分配,可以帮助自动临床分析癫痫发作,并能够比较亚临床发作和完全临床发作。
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来源期刊
Artificial Intelligence
Artificial Intelligence 工程技术-计算机:人工智能
CiteScore
11.20
自引率
1.40%
发文量
118
审稿时长
8 months
期刊介绍: The Journal of Artificial Intelligence (AIJ) welcomes papers covering a broad spectrum of AI topics, including cognition, automated reasoning, computer vision, machine learning, and more. Papers should demonstrate advancements in AI and propose innovative approaches to AI problems. Additionally, the journal accepts papers describing AI applications, focusing on how new methods enhance performance rather than reiterating conventional approaches. In addition to regular papers, AIJ also accepts Research Notes, Research Field Reviews, Position Papers, Book Reviews, and summary papers on AI challenges and competitions.
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