Kim Simelius scite author profile

Abstract-In 12-lead electrocardiography ͑ECG͒, detection of myocardial ischemia is based on ST-segment changes in exercise testing. Magnetocardiography ͑MCG͒ is a complementary method to the ECG for a noninvasive study of the electric activity of the heart. In the MCG, ST-segment changes due to stress have also been found in healthy subjects. To further study the normal response to exercise, we performed MCG mappings in 12 healthy volunteers during supine bicycle ergometry. We also recorded body surface potential mappings ͑BSPM͒ with 123 channels using the same protocol. In this paper we compare, for the first time, multichannel MCG recorded in bicycle exercise testing with BSPM over the whole thorax in middle-aged healthy subjects. We quantified changes induced by the exercise in the MCG and BSPM with parameters based on signal amplitude, and correlation between signal distributions at rest and after exercise. At the ST-segment and T-wave apex, the exercise induced a magnetic field component outward the precordium and the minimum value of the MCG signal over the mapped area was found to be amplified. The response to exercise was smaller in the BSPM than in the MCG. A negative component in the MCG signal at the repolarization period of the cardiac cycle should be considered as a normal response to exercise. Therefore, maximum ST-segment depression over the mapped area in the MCG may not be an eligible parameter when evaluating the presence of ischemia.

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ST-segment level and slope in exercise-induced myocardial ischemia evaluated with body surface potential mapping

Hänninen

Takala

Mäkijärvi

et al. 2001

The American Journal of Cardiology

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Magnetocardiographic Functional Imaging Studies in the BioMag Laboratory

Montonen¹,

Ahonen²,

Hämäläinen³

et al. 2000

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Kim Simelius

Recording locations in multichannel magnetocardiography and body surface potential mapping sensitive for regional exercise-induced myocardial ischemia

Magnetocardiographic and Electrocardiographic Exercise Mapping in Healthy Subjects

ST-segment level and slope in exercise-induced myocardial ischemia evaluated with body surface potential mapping

Magnetocardiographic Functional Imaging Studies in the BioMag Laboratory

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