The morphology and range of duration of the action potential (AP) in normal Wistar rat¿s (WR) myocytes markedly differ from those of guinea pigs (GP), whose plateau (phase 2) duration is longer. Thus a clear-cut T wave can be easy defined in GP but not in WR. Aim of this study was to differentiate magnetocardiographic (MCG) ventricular repolarization (VR) parameters of healthy adult WR and GP. Methods: 10 female animals (5 Guinea pigs and 5 Wistar rats) were studied with a 36-channel MCG system (sensitivity of 20 fT/Hz½) and with 1 ECG lead, in an unshielded hospital room. To assess VR, HR-corrected, JTpeak, JT end, Tpeak-end and QT end, intervals were measured from both MCG waveforms. Timing was improved by MCG maps analysis. Magnetic field orientation (MFO), its dynamics (MFD) and stability (MFS) during the ST interval, were also automatically computed from MCG maps. Results: all repolarization intervals (see Table) were significantly shorter in WR than in GP, except the Tpeak-end, which was longer. MFO and MFD also differed. Conclusions: MCG estimate of VR parameters, in adult WR and GP is precise enough to evidence breed-related differences, consistent with physiological heterogeneity of duration during phases 2 and 3 of the AP, and a with an higher degree of transmural dispersion of repolarization in WR.
Brisinda, D., Meloni, A. M., Fenici, R., Magnetocardiographic Differences of Ventricular Repolarization Parameters between Wistar Rats and Guinea Pigs, in Biomag 2004. Proceedings of 14th International Conference on Biomagnetism, (Boston, Massachussetts, USA., 08-12 August 2004), Biomag 2004 Ltd., Boston, Massachussetts, USA. 2004: 383-384 [http://hdl.handle.net/10807/15880]
Magnetocardiographic Differences of Ventricular Repolarization Parameters between Wistar Rats and Guinea Pigs
Brisinda, Donatella;Meloni, Anna Maria;Fenici, Riccardo
2004
Abstract
The morphology and range of duration of the action potential (AP) in normal Wistar rat¿s (WR) myocytes markedly differ from those of guinea pigs (GP), whose plateau (phase 2) duration is longer. Thus a clear-cut T wave can be easy defined in GP but not in WR. Aim of this study was to differentiate magnetocardiographic (MCG) ventricular repolarization (VR) parameters of healthy adult WR and GP. Methods: 10 female animals (5 Guinea pigs and 5 Wistar rats) were studied with a 36-channel MCG system (sensitivity of 20 fT/Hz½) and with 1 ECG lead, in an unshielded hospital room. To assess VR, HR-corrected, JTpeak, JT end, Tpeak-end and QT end, intervals were measured from both MCG waveforms. Timing was improved by MCG maps analysis. Magnetic field orientation (MFO), its dynamics (MFD) and stability (MFS) during the ST interval, were also automatically computed from MCG maps. Results: all repolarization intervals (see Table) were significantly shorter in WR than in GP, except the Tpeak-end, which was longer. MFO and MFD also differed. Conclusions: MCG estimate of VR parameters, in adult WR and GP is precise enough to evidence breed-related differences, consistent with physiological heterogeneity of duration during phases 2 and 3 of the AP, and a with an higher degree of transmural dispersion of repolarization in WR.
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
