Introduction: Magnetocardiographic (MCG) mapping is increasingly used for non-invasive study of coronary artery disease (CAD), cardiomyopathy (CMP) and arrhythmias. MCG study of small animals with ischemia or CMP would provide useful experimental models for the interpretation of abnormal human patterns. The aim of this study was to assess the range of normality of MCG ventricular repolarization parameters, in intact adult rats. Methods and results: 10 adult Wistar rats (weight 250-350 grams) were investigated with a 36-channel MCG mapping instrumentation (sensitivity is 20 fT/√Hz, at 1 Hz), designed for clinical recordings in unshielded hospital laboratories. To assess ventricular repolarization, MCG Q-Tpeak, Q-Tend, J-Tpeak, J-Tend, Tpeak-Tend intervals were measured. MCG imaging was obtained by automatic calculation of isofield contour maps, and with inverse source localization based on the Equivalent Current Dipole and Effective Magnetic Dipole models, in a semi-infinite space with homogeneous conductance. Magnetic field (MF) orientation, dynamics and stability during the J-Tend segment were also calculated. After averaging 300 seconds of continuous MCG recording, S/N ratio was good enough for reproducible reconstruction of both atrial and ventricular magnetic maps and for three-dimensional localization of the underlying cardiac generators. Clear gender-related differences in ventricular repolarization duration were found, evidenced by significantly longer Q-Tend, J-Tend and Tpeak-Tend intervals in females. The differences in MF orientation, and stability during the J-Tend segment were not significant. For J-Tpeak MF dynamics, only the ratio between the strengths of the positive and negative poles was significantly lower in the female group (p < 0.05). Conclusions Contactless MCG recording is a novel approach, which simplifies non-invasive mapping in small animals. In normal rats it has evidenced gender-related differences of ventricular repolarization parameters equivalent to those reported in previous ECG studies.
Brisinda, D., Meloni, A. M., Fenici, R., Contactless magnetocardiographic study of ventricular repolarization in intact wistar rats: evidence of gender-related differences., <<BASIC RESEARCH IN CARDIOLOGY>>, 2004; (99(3)): 193-203 [http://hdl.handle.net/10807/17777]
Contactless magnetocardiographic study of ventricular repolarization in intact wistar rats: evidence of gender-related differences.
Brisinda, Donatella;Meloni, Anna Maria;Fenici, Riccardo
2004
Abstract
Introduction: Magnetocardiographic (MCG) mapping is increasingly used for non-invasive study of coronary artery disease (CAD), cardiomyopathy (CMP) and arrhythmias. MCG study of small animals with ischemia or CMP would provide useful experimental models for the interpretation of abnormal human patterns. The aim of this study was to assess the range of normality of MCG ventricular repolarization parameters, in intact adult rats. Methods and results: 10 adult Wistar rats (weight 250-350 grams) were investigated with a 36-channel MCG mapping instrumentation (sensitivity is 20 fT/√Hz, at 1 Hz), designed for clinical recordings in unshielded hospital laboratories. To assess ventricular repolarization, MCG Q-Tpeak, Q-Tend, J-Tpeak, J-Tend, Tpeak-Tend intervals were measured. MCG imaging was obtained by automatic calculation of isofield contour maps, and with inverse source localization based on the Equivalent Current Dipole and Effective Magnetic Dipole models, in a semi-infinite space with homogeneous conductance. Magnetic field (MF) orientation, dynamics and stability during the J-Tend segment were also calculated. After averaging 300 seconds of continuous MCG recording, S/N ratio was good enough for reproducible reconstruction of both atrial and ventricular magnetic maps and for three-dimensional localization of the underlying cardiac generators. Clear gender-related differences in ventricular repolarization duration were found, evidenced by significantly longer Q-Tend, J-Tend and Tpeak-Tend intervals in females. The differences in MF orientation, and stability during the J-Tend segment were not significant. For J-Tpeak MF dynamics, only the ratio between the strengths of the positive and negative poles was significantly lower in the female group (p < 0.05). Conclusions Contactless MCG recording is a novel approach, which simplifies non-invasive mapping in small animals. In normal rats it has evidenced gender-related differences of ventricular repolarization parameters equivalent to those reported in previous ECG studies.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.