Determination of optimal electrode positions of a wearable ECG monitoring system for detection of myocardial ischemia: A simulation study

The early detection of myocardial ischemia is an essential lever for its successful treatment. We investigated an ECG monitoring system with 3 electrodes. Optimal electrode positions are determined using a cellular automaton. The spatially heterogeneous effects of myocardial ischemia were modeled by altering 4 electrophysiological parameters: action potential amplitude and duration, conduction velocity as well as resting membrane voltage. Both, transmural heterogeneity and the influence of the border zone were considered in the simulations on three patient models. The detection of myocardial ischemia is based on ST segment deviation from the physiological case. The signals used to find the best electrode positions comprise ischemic regions with different transmural extents in all 17 AHA segments. We show which ischemic ECGs can be detected given a realistic signal-to-noise ratio, false positive rate and maximum response time of the system.

[1]  R. W. Lau,et al.  The dielectric properties of biological tissues: II. Measurements in the frequency range 10 Hz to 20 GHz. , 1996, Physics in medicine and biology.

[2]  Mary Ann Peberdy,et al.  Body surface mapping vs 12-lead electrocardiography to detect ST-elevation myocardial infarction. , 2009, The American journal of emergency medicine.

[3]  M. Cerqueira,et al.  Standardized myocardial segmentation and nomenclature for tomographic imaging of the heart: A statement for healthcare professionals from the Cardiac Imaging Committee of the Council on Clinical Cardiology of the American Heart Association , 2002, The international journal of cardiovascular imaging.

[4]  Arthur C. Guyton,et al.  Handbook of Physiology—The Cardiovascular System , 1985 .

[5]  Olaf Dössel,et al.  Time and Memory Efficient Implementation of the Cardiac Bidomain Equations , 2009 .

[6]  Olaf Dössel,et al.  Ranking the Influence of Tissue Conductivities on Forward-Calculated ECGs , 2010, IEEE Transactions on Biomedical Engineering.

[7]  Olaf Dössel,et al.  Modeling of cardiac ischemia in human myocytes and tissue including spatiotemporal electrophysiological variations / Modellierung kardialer Ischämie in menschlichen Myozyten und Gewebe , 2009, Biomedizinische Technik. Biomedical engineering.

[8]  Bernie Smith,et al.  Comparison of value of leads from body surface maps to 12-lead electrocardiogram for diagnosis of acute myocardial infarction. , 2008, The American journal of cardiology.

[9]  K. T. ten Tusscher,et al.  Alternans and spiral breakup in a human ventricular tissue model. , 2006, American journal of physiology. Heart and circulatory physiology.