Background: Panoramic optical mapping (POM) is an effective tool for 3D visualization and analysis of action potential duration (APD) heterogeneity, a key driver for initiation and persistence of reentry. POM may elucidate cardiac electrophysiological predisposition to develop chaotic arrhythmia such as atrial fibrillation (AF) or organized arrhythmia such as atrial flutter (AFL). Objective: To determine the APD differences in AF and AFL in a transgenic (TG) murine model. Methods: We performed high resolution POM with 4 simultaneous CMOS cameras on 14 Langendorff perfused TG murine hearts (SCN5A mutation at lidocaine binding site F1759A) with spontaneous AF and AFL. We generated serial 2D activation and APD maps in normal sinus rhythm (NSR), while phase movies were created in AF/AFL. All optical maps were then reconstructed in 3D. We averaged the APD80 and APD dispersion values over each atrial chamber and compared the mean differences: i) within AF and AFL across right atrium (RA) and left atrium (LA); and ii) within RA and LA across AF and AFL. Results: AF (n=7) and AFL (n=7) were present at baseline (8/14) or induced by 10Hz burst pacing (6/14). Mean APD80 in RA/LA was: 57.03 ± 4.66 / 50.93± 3.38ms (p<0.05) in AF vs 77.18 ± 4.30 / 58.25 ± 3.88ms (p< 0.01) in AFL, and mean dispersion: 6.23 ± 1.04/ 7.25± 1.71ms in AF vs 5.49 ± 0.80/ 8.42 ± 1.15ms (p<0.01) in AFL. High mean APD80 in the RA with low intra-atrial dispersion in the RA lead to AFL rotational reentry cores, while lower overall APD80 values with high intra-atrial dispersion in the LA resulted in the presence of AF phase singularity points. Conclusion: Development of AF was associated with high intra-atrial APD dispersion in NSR, whereas AFL was associated with high inter-atrial APD dispersion in NSR (1.4-fold higher mean APD80 in the RA). Certain atrial APD dispersion patterns observed in NSR are associated with development of chaotic vs. organized atrial arrhythmias.