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HFOApp:用于高频振荡标记的 MATLAB 图形用户界面。

HFOApp: A MATLAB Graphical User Interface for High-Frequency Oscillation Marking.

机构信息

Department of Neurology, Feinberg School of Medicine, Northwestern University, Chicago, Illinois 60611

Department of Neurology, Feinberg School of Medicine, Northwestern University, Chicago, Illinois 60611.

出版信息

eNeuro. 2021 Oct 8;8(5). doi: 10.1523/ENEURO.0509-20.2021. Print 2021 Sep-Oct.

DOI:10.1523/ENEURO.0509-20.2021
PMID:34544760
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8503963/
Abstract

Epilepsy affects 3.4 million people in the United States, and, despite the availability of numerous antiepileptic drugs, 36% of patients have uncontrollable seizures, which severely impact quality of life. High-frequency oscillations (HFOs) are a potential biomarker of epileptogenic tissue that could be useful in surgical planning. As a result, research into the efficacy of HFOs as a clinical tool has increased over the last 2 decades. However, detection and identification of these transient rhythms in intracranial electroencephalographic recordings remain time-consuming and challenging. Although automated detection algorithms have been developed, their results are widely inconsistent, reducing reliability. Thus, manual marking of HFOs remains the gold standard, and manual review of automated results is required. However, manual marking and review are time consuming and can still produce variable results because of their subjective nature and the limitations in functionality of existing open-source software. Our goal was to develop a new software with broad application that improves on existing open-source HFO detection applications in usability, speed, and accuracy. Here, we present HFOApp: a free, open-source, easy-to-use MATLAB-based graphical user interface for HFO marking. This toolbox offers a high degree of intuitive and ergonomic usability and integrates interactive automation-assist options with manual marking, significantly reducing the time needed for review and manual marking of recordings, while increasing inter-rater reliability. The toolbox also features simultaneous multichannel detection and marking. HFOApp was designed as an easy-to-use toolbox for clinicians and researchers to quickly and accurately mark, quantify, and characterize HFOs within electrophysiological datasets.

摘要

癫痫影响了美国 340 万人,尽管有许多抗癫痫药物可用,但仍有 36%的患者癫痫发作无法控制,严重影响生活质量。高频振荡(HFOs)是一种潜在的致痫组织生物标志物,可能对手术规划有用。因此,在过去的 20 年中,对 HFOs 作为临床工具的功效的研究有所增加。然而,在颅内脑电图记录中检测和识别这些短暂的节律仍然很耗时且具有挑战性。尽管已经开发了自动检测算法,但它们的结果差异很大,降低了可靠性。因此,手动标记 HFOs 仍然是金标准,并且需要手动审查自动结果。然而,手动标记和审查既耗时又可能产生可变的结果,因为它们具有主观性,并且现有的开源软件在功能上存在局限性。我们的目标是开发一种具有广泛应用的新软件,以提高现有开源 HFO 检测应用程序在可用性、速度和准确性方面的性能。在这里,我们介绍了 HFOApp:一个免费的、开源的、易于使用的基于 MATLAB 的图形用户界面,用于 HFO 标记。该工具箱提供了高度直观和符合人体工程学的可用性,并将交互自动化辅助选项与手动标记集成在一起,大大减少了记录审查和手动标记所需的时间,同时提高了评分者间的可靠性。该工具箱还具有同时多通道检测和标记功能。HFOApp 被设计为一种易于使用的工具包,供临床医生和研究人员在电生理数据集中快速准确地标记、量化和表征 HFOs。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2fd3/8503963/5d7b55a4b9e2/ENEURO.0509-20.2021_f008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2fd3/8503963/e4d2c6d2bc74/ENEURO.0509-20.2021_f009.jpg
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Magnetoencephalography imaging of high frequency oscillations strengthens presurgical localization and outcome prediction.
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