Title :
Orthogonal Field Calibration Analysis for Myocardial Electrode Arrays Used in Defibrillation Studies
Author :
Deale, O. Carlton ; Ng, Kwong T. ; Lerman, Bruce B.
Author_Institution :
Weill Med. Coll., Dept. of Med., Cornell Univ., New York, NY
Abstract :
Mapping the myocardial electric field during a defibrillation pulse requires the recording of potential differences between electrodes. The field is then calculated from these quantities and the corresponding calibration matrix. One straightforward calibration technique involves alignment of a known electric field along each of the orthogonal axes of an electrode array and recording the resulting potential differences. However, no results have been reported to support the efficacy of this technique. This study performs a detailed error analysis including a one-to-one comparison to a precision calibration technique, and quantitatively establishes the efficacy of the orthogonal field technique.
Keywords :
bioelectric phenomena; biomedical electrodes; calibration; electric field measurement; electrocardiography; matrix algebra; calibration matrix; defibrillation studies; electric field alignment; interelectrode potential difference recording; myocardial electric field mapping; myocardial electrode arrays; orthogonal field calibration analysis; orthogonal field technique; Biomedical electrodes; Calibration; Cardiology; Current density; Defibrillation; Electric variables measurement; Electrodes; Error analysis; Heart; Myocardium; Steel; Testing; Calibration; current density; defibrillation; electrode array (EA); error analysis; field mapping; potential gradient; Calibration; Electric Conductivity; Electric Countershock; Electrodes; Electromagnetic Fields; Electrophysiologic Techniques, Cardiac; Heart; Humans; Reference Values; Research;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2008.2003089
