Classification of EEG Signal-Based Encephalon Magnetic Signs for Identification of Epilepsy-Based Neurological Disorder

Kaur, Arshpreet; Gupta, Suneet; Kathiravan, M.; Nasrullah, Syed; Paul, Chayan; Rahin, Saima Ahmed

doi:10.1155/2022/7793946

Cited by 2 publications

(3 citation statements)

References 13 publications

(15 reference statements)

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“…Similar to spike detection, HFO detection is also divided into three steps: (i) first pre-processing the signal; (ii) then pre-detecting possible HFOs; and (iii) classifying previously detected candidate events in order to distinguish real HFOs from artefacts and noise in the signal. In terms of feature selection, similar to the use of MEG signals for epilepsy detection and classification, statistical features ( Alotaiby et al, 2017 ; Khalid et al, 2017 ; Sdoukopoulou et al, 2021 ), phase features ( Kaur et al, 2022 ), graph theoretic/networks ( Sdoukopoulou et al, 2021 ) and other features have been explored in the time and frequency domains. Overall, the detection of epileptogenic foci will be facilitated by the use of CAD methods for the detection of abnormal signals in epilepsy.…”

Section: Discussionmentioning

confidence: 99%

“…Sdoukopoulou et al considered a combined MEG and EEG approach to develop a multi-feature and iterative classification scheme and achieved a classification result of recall 90.2%, specificity 95.1%, and accuracy 92.8% ( Sdoukopoulou et al, 2021 ). Kaur et al proposed a strategy of locating spikes in the phase locking functional brain connectivity network using a machine learning method which achieved a classification accuracy of up to 93.8% ( Kaur et al, 2022 ).…”

Section: Methodsmentioning

confidence: 99%

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Magnetoencephalography-based approaches to epilepsy classification

Pan

Yang

et al. 2023

Front. Neurosci.

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Epilepsy is a chronic central nervous system disorder characterized by recurrent seizures. Not only does epilepsy severely affect the daily life of the patient, but the risk of premature death in patients with epilepsy is three times higher than that of the normal population. Magnetoencephalography (MEG) is a non-invasive, high temporal and spatial resolution electrophysiological data that provides a valid basis for epilepsy diagnosis, and used in clinical practice to locate epileptic foci in patients with epilepsy. It has been shown that MEG helps to identify MRI-negative epilepsy, contributes to clinical decision-making in recurrent seizures after previous epilepsy surgery, that interictal MEG can provide additional localization information than scalp EEG, and complete excision of the stimulation area defined by the MEG has prognostic significance for postoperative seizure control. However, due to the complexity of the MEG signal, it is often difficult to identify subtle but critical changes in MEG through visual inspection, opening up an important area of research for biomedical engineers to investigate and implement intelligent algorithms for epilepsy recognition. At the same time, the use of manual markers requires significant time and labor costs, necessitating the development and use of computer-aided diagnosis (CAD) systems that use classifiers to automatically identify abnormal activity. In this review, we discuss in detail the results of applying various different feature extraction methods on MEG signals with different classifiers for epilepsy detection, subtype determination, and laterality classification. Finally, we also briefly look at the prospects of using MEG for epilepsy-assisted localization (spike detection, high-frequency oscillation detection) due to the unique advantages of MEG for functional area localization in epilepsy, and discuss the limitation of current research status and suggestions for future research. Overall, it is hoped that our review will facilitate the reader to quickly gain a general understanding of the problem of MEG-based epilepsy classification and provide ideas and directions for subsequent research.

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Magnetoencephalography-based approaches to epilepsy classification

Pan

Yang

et al. 2023

Front. Neurosci.

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“…This article has been retracted by Hindawi, as publisher, following an investigation undertaken by the publisher [ 1 ]. This investigation has uncovered evidence of systematic manipulation of the publication and peer-review process.…”

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confidence: 99%

Retracted: Classification of EEG Signal‐Based Encephalon Magnetic Signs for Identification of Epilepsy‐Based Neurological Disorder

Methods in Medicine

2023

Computational and Mathematical Methods in Medicine

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Classification of EEG Signal-Based Encephalon Magnetic Signs for Identification of Epilepsy-Based Neurological Disorder

Cited by 2 publications

References 13 publications

Magnetoencephalography-based approaches to epilepsy classification

Magnetoencephalography-based approaches to epilepsy classification

Retracted: Classification of EEG Signal‐Based Encephalon Magnetic Signs for Identification of Epilepsy‐Based Neurological Disorder

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