Voltage during atrial fibrillation is superior to voltage during sinus rhythm in localizing areas of delayed enhancement on magnetic resonance imaging: An assessment of the posterior left atrium in patients with persistent atrial fibrillation

Abstract Background Bipolar electrogram voltage during sinus rhythm (V SR ) has been used as a surrogate for atrial fibrosis in guiding catheter ablation of persistent AF, but the fixed rate and wavefront characteristics present during sinus rhythm may not accurately reflect underlying functional vulnerabilities responsible for AF maintenance. Objectives We hypothesized that given adequate temporal sampling, the spatial distribution of mean AF voltage (V mAF ) should better correlate with delayed-enhancement MRI (MRI-DE) detected atrial fibrosis than V SR . Methods AF was mapped (8s) during index ablation for persistent AF (20 patients) using a 20-pole catheter (660±28 points/map). Following cardioversion, V SR was mapped (557±326 points/map). Electroanatomic and MRI-DE maps were co-registered in 14 patients. Results (i) The time course of V mAF was assessed from 1-40 AF-cycles (∼8s) at 1113 locations. V mAF stabilized with sampling >4s (mean voltage error= 0.05mV ). (ii) Paired point analysis of V mAF from segments acquired 30s apart (3,667-sites, 15-patients), showed strong correlation (r=0.95, p mAF distributions (median[IQR]) were 0.21[0.14-0.35]mV in DE vs. 0.52[0.34-0.77]mV in Non-DE regions. V SR distributions were 1.34[0.65-2.48]mV in DE vs. 2.37[1.27-3.97]mV in Non-DE. A V mAF threshold of 0.35mV yielded sensitivity/specificity 75%/79% in detecting MRI-DE, compared with 63%/67% for V SR ( 1.8mV threshold) . Conclusion The correlation between low-voltage and posterior LA MRI-DE is significantly improved when acquired during AF vs. sinus rhythm. With adequate sampling, mean AF voltage is a reproducible marker reflecting the functional response to the underlying persistent AF substrate.