Quantifying the Suitability of Biosignals Acquired During Surgery for Multimodal Analysis

IF 2.7 Q3 ENGINEERING, BIOMEDICAL
Ennio Idrobo-Ávila;Gergő Bognár;Dagmar Krefting;Thomas Penzel;Péter Kovács;Nicolai Spicher
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引用次数: 0

Abstract

Goal: Recently, large datasets of biosignals acquired during surgery became available. As they offer multiple physiological signals measured in parallel, multimodal analysis – which involves their joint analysis – can be conducted and could provide deeper insights than unimodal analysis based on a single signal. However, it is unclear what percentage of intraoperatively acquired data is suitable for multimodal analysis. Due to the large amount of data, manual inspection and labelling into suitable and unsuitable segments are not feasible. Nevertheless, multimodal analysis is performed successfully in sleep studies since many years as their signals have proven suitable. Hence, this study evaluates the suitability to perform multimodal analysis on a surgery dataset (VitalDB) using a multi-center sleep dataset (SIESTA) as reference. Methods: We applied widely known algorithms entitled “signal quality indicators” to the common biosignals in both datasets, namely electrocardiography, electroencephalography, and respiratory signals split in segments of 10 s duration. As there are no multimodal methods available, we used only unimodal signal quality indicators. In case, all three signals were determined as being adequate by the indicators, we assumed that the whole signal segment was suitable for multimodal analysis. Results: 82% of SIESTA and 72% of VitalDB are suitable for multimodal analysis. Unsuitable signal segments exhibit constant or physiologically unreasonable values. Histogram examination indicated similar signal quality distributions between the datasets, albeit with potential statistical biases due to different measurement setups. Conclusions: The majority of data within VitalDB is suitable for multimodal analysis.
量化手术中获取的生物信号是否适合用于多模态分析
目标:最近,人们可以获得手术过程中采集的大量生物信号数据集。由于这些数据集提供了并行测量的多种生理信号,因此可以进行多模态分析(包括对这些信号的联合分析),与基于单一信号的单模态分析相比,多模态分析能提供更深入的见解。不过,目前还不清楚术中获取的数据中有多大比例适合进行多模态分析。由于数据量巨大,人工检查和标记合适和不合适的片段并不可行。然而,多年来,多模态分析已在睡眠研究中成功应用,因为其信号已被证明是合适的。因此,本研究以多中心睡眠数据集(SIESTA)为参考,对手术数据集(VitalDB)进行多模态分析的适宜性进行了评估。分析方法我们将广为人知的名为 "信号质量指标 "的算法应用于这两个数据集中的常见生物信号,即心电图、脑电图和呼吸信号,并将其分割成持续时间为 10 秒的片段。由于没有可用的多模态方法,我们只使用了单模态信号质量指标。如果所有三个信号都被指标确定为合格,我们就认为整个信号段适合进行多模态分析。分析结果82% 的 SIESTA 和 72% 的 VitalDB 适合进行多模态分析。不适合的信号段表现为恒定值或生理上不合理的值。直方图检查显示两个数据集的信号质量分布相似,但由于测量设置不同,可能存在统计偏差。结论VitalDB 中的大部分数据都适合进行多模态分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
9.50
自引率
3.40%
发文量
20
审稿时长
10 weeks
期刊介绍: The IEEE Open Journal of Engineering in Medicine and Biology (IEEE OJEMB) is dedicated to serving the community of innovators in medicine, technology, and the sciences, with the core goal of advancing the highest-quality interdisciplinary research between these disciplines. The journal firmly believes that the future of medicine depends on close collaboration between biology and technology, and that fostering interaction between these fields is an important way to advance key discoveries that can improve clinical care.IEEE OJEMB is a gold open access journal in which the authors retain the copyright to their papers and readers have free access to the full text and PDFs on the IEEE Xplore® Digital Library. However, authors are required to pay an article processing fee at the time their paper is accepted for publication, using to cover the cost of publication.
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