• Title/Summary/Keyword: Heart dipole

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Comparison of Magnetocardiogram Parameters Between a Ischemic Heart Disease Group and Control Group (정상군 및 허혈성 심질환 환자군에서의 심자도 파라미터 비교)

  • Park, Jong-Duk;Huh, Young;Jin, Seung-oh;Jeon, Sung-chae
    • The Transactions of the Korean Institute of Electrical Engineers D
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    • v.54 no.11
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    • pp.680-688
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    • 2005
  • The electrical current generated by heart creates not only electric potential but also a magnetic field. We have observed electrophysiological phenomena of the heart by measuring components of magnetocardiogram(MCG) using 61 channel superconducting quantum interference device(SQUD) system. We have analyzed the possibility and characteristics of MCG parameters for diagnosis of ischemic heart disease. A technique for automatic analysis of MCG signals in time domain was developed. The methods for detecting the position, the interval, the amplitude ratio, and the direction of single current dipole were examined in the MCG wave. The position and interval parameters were obtained by calculating the gradients of a envelope curve which could be formed by the difference between the maximum and minimum envelope of multi-channel MCG signals. We show some differences of the frequency contour map between the normal MCG and the abnormal (ischemic heart disease) MCG. The direction of single current dipole can be defined by rotating the magnetic field according to Biot-Savart's law at each point of MCG signals. In this study, we have examined the direction of single current dipole from searching for the centroids of positive and negative magnetic fields. The amplitude ratio parameters for measuring 57 deviation consisted of A$_{T}$/A$_{R}$ and other ratios. and We developed a new analysis method, which is based on the frequency contour map of electromagnetic field. Using theses parameters, we founded significant differences between normal subjects and ischemic patients in some parameters.

A Study on the Correlationship between Wearable ECG and Clinical ECG Measurements (웨어러블 심전도 측정과 임상 심전도 측정과의 상관관계에 대한 연구)

  • Lee, Kang-Hwi;Lee, Seong-Su;Kim, Sang-Min;Lee, Hyeok-Jae;Min, Kyoung-Jin;Kang, Hyun-Kyu;Lee, Joo-Hyeon;Kwak, Hwy-Kuen;Ko, Yun-Soo;Lee, Jeong-Whan
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.67 no.12
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    • pp.1690-1698
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    • 2018
  • Recent advances in ICT technology have transformed many of our daily lives and attracted a lot of attention to personal health. Heart beat measurement that reflects cardiac activities has been used in various fields such as exercise evaluation and psychological state evaluation for a long time, but its utilization method is limited due to its differentiation from clinical electrocardiogram. Therefore, in this study, we could observe the change of the measured signal according to the change of the distance and the position of the measuring electrodes which are non-standard electrode configuration. Based on the electric dipole model of the heart, correlation with clinical electrocardiogram could be confirmed by synthesizing multiple surface potentials measured with a shorter electrode distance than standard one. From the electromagnetic point of view, the distance between the measuring electrodes corresponds to the distance that the electric potential by the cardiac electric dipole moves, and the electric potential measured at the body surface is proportional to the moving distance of the electric potential. Therefore, it is preferable to make the distance between electrodes as long as possible, and to position the measuring electrode close to the ventricle rather than the atrium. In addition, it was found that standard electrocardiographic waveforms could be synthesized by using arithmetic sum of multiple measuring electrodes due to the relationship of electrical dipole vectors, which is obtained by dividing and positioning a plurality of measuring electrodes on a reference electrode line, such as Lead-I, Lead-II direction. Also, we obtained a significant Pearson correlation coefficient ($r=0.9113{\pm}0.0169$) as a result of synthetic experiments on four subjects.

Modeling of Heart Phantom using the Multidipole Current Source

  • Jang, Kwan-Hee;Yoon, Dal-Hwan;Min, Seung-Gi
    • 제어로봇시스템학회:학술대회논문집
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    • 2003.10a
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    • pp.1957-1962
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    • 2003
  • In order to design the phantom of heart, we have developed the multi-dipole current source system. Such a one be clue to the various motion of heart. The magnetocardiograph (MCG) system for diagnosing the disease of the heart due to an analysis of the heart signal. The multidipole current source system be built by microprocessor. We use the shield room to obtain a good experimental result. Then the signal acquired is mixed with a background noise, through a filtering extracts a pure signal. The pure signal such a heart phantom is analyzed by an electromagnetic map.

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The Distribution of the Torso Surface Potentials based on electrical cardiac dipole source (심장의 전기쌍극자 소스에 의한 토르소 표면 전위의 분포)

  • Lee, K.J.;Lee, S.J.;Park, K.L.;Song, G.K.
    • Proceedings of the KOSOMBE Conference
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    • v.1996 no.05
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    • pp.188-191
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    • 1996
  • This study is to find the distribution of the torso surface potential based on electrical cardiac dipole source. In order to find the torso surface potential, the governing equation was developed based on the Green's second theorem. The boundary element method(BEM) which has a good computing capability in case of homogeneous and isotropic medium was applied to solve the equation. To validate the BEM, we considered a homogeneous sphere model which has an electric dipole source inside. The results showed the good agreement between the analytic solution and the computed solution. In normal heart, the simulated torso surface isopotential maps are good agreement with that obtained from the ventricular excitation. The validity of the simulated results were verified by comparing with other results.

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