Moderate but not severe hypothermia causes pro-arrhythmic changes in cardiac electrophysiology

Aims Treatment of arrhythmias evoked by hypothermia/rewarming remains challenging, and the underlying mechanisms are unclear. This in vitro experimental study assessed cardiac electrophysiology in isolated rabbit hearts at temperatures occurring in therapeutic and accidental hypothermia. Methods and results Detailed ECG, surface electrogram, and panoramic optical mapping were performed in isolated rabbit hearts cooled to moderate (31 degrees C) and severe (17 degrees C) hypothermia. Ventricular activation was unchanged at 31 C while action potential duration (APD) was significantly prolonged (176.9 +/- 4.2 ms vs. 241.0 +/- 2.9 ms, P< 0.05), as was ventricular repolarization. At 17 degrees C, there were proportionally similar delays in both activation and repolarization. These changes were reflected in the QRS and QT intervals of ECG recordings. Ventricular fibrillation threshold was significantly reduced at 31 degrees C (16.3 +/- 3.1 vs. 35 +/- 3.5 mA, P < 0.05) but increased at 17 degrees C (64.2 +/- 9.9, P < 0.05). At 31 degrees C, transverse conduction was relatively unchanged by cooling compared to longitudinal conduction, but at 17 degrees C both transverse and longitudinal conduction were proportionately reduced to a similar extent. The gap junction uncoupler heptanol had a larger relative effect on transverse than longitudinal conduction and was able to restore the transverse/longitudinal conduction ratio, returning ventricular fibrillation threshold to baseline values (16.3 +/- 3.1 vs. 36.3 +/- 4.3 mA, P <0.05) at 31 degrees C. Rewarming to 37 degrees C restored the majority of the electrophysiological parameters. Conclusions Moderate hypothermia does not significantly change ventricular conduction time but prolongs repolarization and is pro-arrhythmic. Further cooling to severe hypothermia causes parallel changes in ventricular activation and repolarization, changes which are anti-arrhythmic. Therefore, relative changes in QRS and QT intervals (QR/QTc) emerge as an ECG-biomarker of pro-arrhythmic activity. Risk for ventricular fibrillation appears to be linked to the relatively low temperature sensitivity of ventricular transmural conduction. a conclusion supported by the antiarrhythmic effect of heptanol at 31 degrees C. [GRAPHICS] .