Abstract 18402: Human Atrial Fibrillation Drivers Seen Simultaneously by Focal Impulse and Rotor Mapping and High-resolution Optical Mapping

Abstract

Background: A mechanism of AF maintenance has been suggested to be a limited number of patient-specific AF drivers seen by optical mapping in animals and now Focal Impulse and Rotor Mapping (FIRM) in patients. The higher resolution optical mapping can only be performed ex vivo and, thus, these two different mapping approaches have never been evaluated simultaneously in human hearts. Methods: Coronary-perfused explanted human atria (n=5, 19-57 y.o.) were optically mapped using voltage sensitive near-infrared di-4-ANBDQBS with 2-4 high resolution CMOS cameras (100x100 pixels with 330-1000μM resolution) simultaneously with a 64-electrode basket catheter or a 64-electrode custom flat catheter from either the endocardium or epicardium. AF (>10 min, 6.8±2.1Hz) was induced by perfusion of adenosine (10-100μM) and/or isoproterenol (10-100nM). AF drivers were defined as localized stable reentrant activity in areas of highest dominant frequency for optical mapping, while unipolar signals from the catheters were analyzed using experienced FIRM user interpretation and RAP, a signal analysis tool that highlights driver regions on commercially available systems. Results: Optical mapping identified reentrant AF drivers in 7/8 episodes of AF in both the left and right atria. Interestingly, one episode of AF was driven by two competing reentrant drivers. Six AF drivers seen by optical mapping were also seen with the same location and rotation by FIRM, while FIRM identified an AF driver in an 8th episode from an endocardial basket that was unseen by optical mapping from the epicardium. In one episode, the intramural AF driver was only defined by dual sided optical mapping and unseen by endocardial FIRM. Conclusions: Our study demonstrates that most localized reentrant AF drivers in ex vivo human hearts have similar spatiotemporal characteristics whether identified by high resolution optical mapping or FIRM and may represent the clinical phenomena seen in AF patients.