U Steinhoff, A Schnabel, M Burghoff, T Freibier, F Thiel, H Koch, L Trahms
{"title":"Spatial distribution of cardiac magnetic vector fields acquired from 3120 SQUID positions.","authors":"U Steinhoff, A Schnabel, M Burghoff, T Freibier, F Thiel, H Koch, L Trahms","doi":"","DOIUrl":null,"url":null,"abstract":"<p><p>An extended measurement of the magnetic vector field of the human heart is presented. It is acquired by sequential recordings, shifting a 16 SQUID vector magnetometer across 195 positions over a healthy subject's thorax. The magnetocardiographic (MCG) signals were synchronized using a simultaneously measured ECG channel. The registration of the field extends over a volume of 1000 mm x 600 mm x 420 mm sampled at 3120 SQUID positions. We present diagrams of the vector amplitude of selected points in 6 planes at increasing distances from the frontal thorax. Each plane contains 76 vector points. Additionally, we measured the vector field at 126 points lateral to the chest. At the edge points of the measurement volume, the absolute value of the magnetic vector signal amplitude exceeds 0.3 pT in all measurement points. The dataset provides an excellent base to study dedicated MCG detection or rejection methods. Examples where rejection of the heart signal is necessary are magnetoencephalography, magnetoneurography and fetal MCG. The knowledge of the spatio-temporal distribution of the magnetic vector field of the heart supports the development and comparison of multi-SQUID systems and will be used to create new MCG interpretation and representation algorithms.</p>","PeriodicalId":83814,"journal":{"name":"Neurology & clinical neurophysiology : NCN","volume":"2004 ","pages":"59"},"PeriodicalIF":0.0000,"publicationDate":"2004-11-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Neurology & clinical neurophysiology : NCN","FirstCategoryId":"1085","ListUrlMain":"","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
An extended measurement of the magnetic vector field of the human heart is presented. It is acquired by sequential recordings, shifting a 16 SQUID vector magnetometer across 195 positions over a healthy subject's thorax. The magnetocardiographic (MCG) signals were synchronized using a simultaneously measured ECG channel. The registration of the field extends over a volume of 1000 mm x 600 mm x 420 mm sampled at 3120 SQUID positions. We present diagrams of the vector amplitude of selected points in 6 planes at increasing distances from the frontal thorax. Each plane contains 76 vector points. Additionally, we measured the vector field at 126 points lateral to the chest. At the edge points of the measurement volume, the absolute value of the magnetic vector signal amplitude exceeds 0.3 pT in all measurement points. The dataset provides an excellent base to study dedicated MCG detection or rejection methods. Examples where rejection of the heart signal is necessary are magnetoencephalography, magnetoneurography and fetal MCG. The knowledge of the spatio-temporal distribution of the magnetic vector field of the heart supports the development and comparison of multi-SQUID systems and will be used to create new MCG interpretation and representation algorithms.
提出了一种扩展的人体心脏磁场矢量测量方法。通过连续记录,将16 SQUID矢量磁强计在健康受试者的胸腔上移动195个位置来获得磁强计。使用同步测量的心电通道同步心电图信号。在3120个SQUID位置采样的区域面积为1000 mm x 600 mm x 420 mm。我们给出了6个平面上选择的点的矢量振幅图,这些点离额胸的距离越来越远。每个平面包含76个向量点。此外,我们测量了126个胸廓侧点的矢量场。在测量体边缘点,所有测点的磁矢量信号幅值绝对值均超过0.3 pT。该数据集为研究专用MCG检测或拒绝方法提供了良好的基础。需要拒绝心脏信号的例子有脑磁图、神经磁图和胎儿MCG。心脏磁场时空分布的知识支持多squid系统的开发和比较,并将用于创建新的MCG解释和表示算法。
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