Ventricular arrhythmias, consisting of single ectopic beats (sEB), multiple EB (mEB), and Torsades de Pointes (TdP, defined as >5 beats with QRS vector twisting around isoelectric line) can be induced in the anesthetized chronic AV-block (CAVB) dog by dofetilide (IKr-blocker). The interplay between temporal dispersion of repolarization, quantified as short-term variability (STV), and spatial dispersion of repolarization (SDR) in the initiation and perpetuation of these arrhythmias remains unclear. Five inducible (>3 TdPs/10') CAVB dogs were observed for 10' from the start of dofetilide infusion (0.025mg/kg, 5'). An intracardiac decapolar electrogram (EGM) catheter and 30 intramural cardiac needles in the left ventricle (LV) were introduced. STVARI was derived from 31 consecutive activation recovery intervals (ARI) on the intracardiac EGM, using the formula: . The mean SDR3D in the LV was determined as the three-dimensional repolarization time differences between the intramural cardiac needles. Moments of measurement included baseline (BL) and after dofetilide infusion prior to first 1) sEB (occurrence at 100±35"), 2) mEB (224±96"), and 3) non self-terminating TdP (454±298"). STVARI increased from 2.15±0.32ms at BL to 3.73±0.99ms* prior to the first sEB and remained increased without further significant progression to mEB (4.41±0.45ms*) and TdP (5.07±0.84ms*) (*p<0.05 compared to BL). SDR3D did not change from 31±11ms at BL to 43±13ms prior to sEB, but increased significantly prior to mEB (68±7ms*) and to TdP (86±9ms*+) (+p<0.05 compared to sEB). An increase in STV contributes to the initiation of sEB whereas an increase in SDR is important for the perpetuation of non self-terminating TdPs.
Artificial magnetism at terahertz frequencies from three-dimensional lattices of TiO_2 microspheres accounting for spatial dispersion and magnetoelectric coupling