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成人磁心动图标准模板。

Standard template of adult magnetocardiogram.

作者信息

Kandori Akihiko, Ogata Kuniomi, Miyashita Tsuyoshi, Watanabe Yasushi, Tanaka Kimio, Murakami Masahiro, Oka Yuji, Takaki Hiroshi, Hashimoto Syuji, Yamada Yuko, Komamura Kazuo, Shimizu Wataru, Kamakura Shiro, Watanabe Shigeyuki, Yamaguchi Iwao

机构信息

Advanced Research Laboratory, Hitachi, Ltd., Higashi-Koigakubo, Kokubunji, Tokyo, Japan.

出版信息

Ann Noninvasive Electrocardiol. 2008 Oct;13(4):391-400. doi: 10.1111/j.1542-474X.2008.00246.x.

DOI:10.1111/j.1542-474X.2008.00246.x
PMID:18973497
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6932389/
Abstract

BACKGROUND

We need to know the magnetocardiogram (MCG) features regarding waveform and two-dimensional current distribution in normal subjects in order to classify the abnormal waveform in patients with heart disease. However, a standard MCG waveform has not been produced yet, therefore, we have first made the standard template MCG waveform.

METHODS AND RESULTS

We used data from 464 normal control subjects' 64-channel MCGs (268 males, 196 females) to produce a template MCG waveform. The measured data were averaged after shortening or lengthening and normalization. The time interval and amplitude of the averaged data were adjusted to mean values obtained from a database. Furthermore, the current distributions (current arrow maps [CAMs]) were calculated from the produced templates to determine the current distribution pattern. The produced template of the QRS complex had a typical shape in six regions that we defined (M1, M2, M3, M4, M5, and M6). In the P wave, the main current arrow in CAMs pointing in a lower-left direction appeared in M1. In the QRS complex, the typical wave appeared in each region, and there were two main current arrows in M2 and M5. There were negative T waves in M1, M4, and M5, and positive T waves in M3 and M6, and the main current arrow pointing in a lower-left direction appeared in M2.

CONCLUSION

Template MCG waveforms were produced. These morphologic features were classified into six regions, and the current distribution was characterized in each region. Consequently, the templates and classifications enable understanding MCG features and writing clinical reports.

摘要

背景

为了对心脏病患者的异常波形进行分类,我们需要了解正常受试者的磁心动图(MCG)波形及二维电流分布特征。然而,目前尚未产生标准的MCG波形,因此,我们首先制作了标准模板MCG波形。

方法与结果

我们使用了464名正常对照受试者的64通道MCG数据(男性268名,女性196名)来制作模板MCG波形。测量数据在进行缩短或延长以及归一化处理后进行平均。将平均数据的时间间隔和幅度调整为从数据库中获得的平均值。此外,从生成的模板中计算电流分布(电流箭头图[CAMs])以确定电流分布模式。所生成的QRS复合波模板在我们定义的六个区域(M1、M2、M3、M4、M5和M6)具有典型形状。在P波中,CAMs中指向左下方向的主要电流箭头出现在M1。在QRS复合波中,每个区域都出现典型波形,M2和M5中有两个主要电流箭头。M1、M4和M5出现负向T波,M3和M6出现正向T波,M2中出现指向左下方向的主要电流箭头。

结论

制作出了模板MCG波形。这些形态学特征被分为六个区域,并对每个区域的电流分布进行了表征。因此,这些模板和分类有助于理解MCG特征并撰写临床报告。

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