Abstract
BackgroundRegional differences in ventricular activation sequence and action potential duration and morphology result in dispersion in ventricular repolarization (VR). VR dispersion is a key factor in arrhythmogenesis. We studied the adaptation of global VR dispersion in humans during normal and abnormal ventricular activation, and the relation to the QT adaptation (hysteresis). MethodsWe measured global VR dispersion as T amplitude, T area, and ventricular gradient (VG), using continuous Frank vectorcardiography, in response to abrupt and sustained atrial (AP) or ventricular pacing (VP) aiming at 120 bpm, in 21 subjects with permanent pacemakers. ResultsFollowing pacing start, VR adaptation showed an initially rapid and complex tri-phasic pattern, most pronounced for T amplitude. There were major differences in the patterns of VR dispersion adaptation following abrupt AP vs VP, confirming that the adaptation pattern is activation dependent. In response to AP, an instantaneous decrease in VR dispersion occurred, followed by an increase and then a slow decrease, all at a lower level than baseline. In contrast, following VP there was an immediate increase to ~4× baseline in T amplitude and T area (but not in VG), with a subsequent biphasic adaptation lasting longer during VP than AP. The initial rapid changes occurred within the time for QT adaptation to reach steady-state. ConclusionsOur results corroborate and expand data from animal and invasive human studies, showing similarities of the adaptation pattern on different scales. The initial rapidly changing VR adaptation phase presumably reflects a window of increased vulnerability to arrhythmias.
Highlights
1.1 ARRHYTHMIA AND SUDDEN CARDIAC DEATHSudden cardiac death (SCD) and life-threatening arrhythmias are common manifestations of cardiac disease [1,2,3]
The adaptation of ventricular repolarization (VR) to changes in heart rate (HR) is characterised by an exponential accommodation of the QT interval; during the time of this adaptation to a new steady state, a more complex reaction is seen in measures of global dispersion
In subjects with long QT syndrome type 1 (LQT1), QT adaptation during HR increase was more rapid compared with healthy individuals
Summary
1.1 ARRHYTHMIA AND SUDDEN CARDIAC DEATHSudden cardiac death (SCD) and life-threatening arrhythmias are common manifestations of cardiac disease [1,2,3]. Disturbances in electrical recovery (ventricular repolarization; VR) are important mechanisms behind ventricular arrhythmias, which often occur in relation to changes in heart rate (HR) It is of both theoretical and clinical interest to study the adaptation of VR to changes in HR. Aims: To investigate the adaptation of VR duration (QT and QTpeak) and VR heterogeneity (aka dispersion; T area, T amplitude and ventricular gradient) in response to changes in HR in subjects without structural heart disease and in patients with long QT syndrome type 1 (LQT1). Paper III: There were significant differences in the adaptation of global measures of electrical heterogeneity (dispersion) between HR increase induced by atrial vs ventricular pacing For both pacing modes, the adaptation occurred in 2–3 rapidly changing phases. QT adaptation was faster in LQT1 patients vs healthy controls
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