促进心血管研究的通用标准12导联心电图标准化数据库:KURIAS-ECG。

IF 2.3 Q3 MEDICAL INFORMATICS Healthcare Informatics Research Pub Date : 2023-04-01 Epub Date: 2023-04-30 DOI:10.4258/hir.2023.29.2.132
Hakje Yoo, Yunjin Yum, Soo Wan Park, Jeong Moon Lee, Moonjoung Jang, Yoojoong Kim, Jong-Ho Kim, Hyun-Joon Park, Kap Su Han, Jae Hyoung Park, Hyung Joon Joo
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引用次数: 0

摘要

目的:专家基于心电图的诊断不能保持一致的质量,因为可能会出现个体差异。以前的公共数据库可以用于临床研究,但没有允许数据库合并的通用标准。因此,很难进行通过结合数据库得出结果的研究。最近的商业心电图机提供类似于医生的诊断。因此,本研究的目的是利用计算机诊断构建一个标准化的心电图数据库。方法:使用系统化医学临床术语命名法(SNOMED CT)和观察医学结果伙伴关系通用数据模型(OMOP-CDM)对构建的数据库进行标准化,然后根据明尼苏达州分类将数据分为10组。此外,为了提取高质量的波形,去除了质量较差的心电图,并通过为每组提取至少2000个病例来最小化数据库偏差。为了检查数据库的质量,分析了根据是否去除了不良心电图而产生的基线位移的差异,并使用七个使用波形的分类模型验证了数据库的有用性。结果:标准化的KURIAS-ECG数据库由13862名患者的高质量心电图组成,约有20000个数据点,使明尼苏达州的每个分类都有可能获得2000多个数据点。使用SNOMED-CT提取的数据建立的人工智能分类模型显示平均准确率为88.03%。结论:KURIAS-ECG数据库包含从各种机器提取的标准化ECG数据。拟议的方案应利用大数据和人工智能促进心血管疾病研究。
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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Standardized Database of 12-Lead Electrocardiograms with a Common Standard for the Promotion of Cardiovascular Research: KURIAS-ECG.

Objectives: Electrocardiography (ECG)-based diagnosis by experts cannot maintain uniform quality because individual differences may occur. Previous public databases can be used for clinical studies, but there is no common standard that would allow databases to be combined. For this reason, it is difficult to conduct research that derives results by combining databases. Recent commercial ECG machines offer diagnoses similar to those of a physician. Therefore, the purpose of this study was to construct a standardized ECG database using computerized diagnoses.

Methods: The constructed database was standardized using Systematized Nomenclature of Medicine Clinical Terms (SNOMED CT) and Observational Medical Outcomes Partnership-common data model (OMOP-CDM), and data were then categorized into 10 groups based on the Minnesota classification. In addition, to extract high-quality waveforms, poor-quality ECGs were removed, and database bias was minimized by extracting at least 2,000 cases for each group. To check database quality, the difference in baseline displacement according to whether poor ECGs were removed was analyzed, and the usefulness of the database was verified with seven classification models using waveforms.

Results: The standardized KURIAS-ECG database consists of high-quality ECGs from 13,862 patients, with about 20,000 data points, making it possible to obtain more than 2,000 for each Minnesota classification. An artificial intelligence classification model using the data extracted through SNOMED-CT showed an average accuracy of 88.03%.

Conclusions: The KURIAS-ECG database contains standardized ECG data extracted from various machines. The proposed protocol should promote cardiovascular disease research using big data and artificial intelligence.

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来源期刊
Healthcare Informatics Research
Healthcare Informatics Research MEDICAL INFORMATICS-
CiteScore
4.90
自引率
6.90%
发文量
44
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