Po-02-216 segmental increase in heterogeneity of repolarization corresponds to regions of decreased innervation after myocardial infarction

Myocardial infarction (MI) results in a dense scar region surrounded by a heterogeneous remodeled border zone. In this region denervation and nerve regeneration during healing could be region dependent and contribute to segmental differences in the functional substrate for arrhythmias. To examine regional electrophysiological remodeling in relation to perfusion and innervation changes after myocardial infarction. Anterio-septal MI was induced in 6 domestic pigs by a 120-minute occlusion of the left anterior descending artery (LAD) followed by reperfusion. After one month, PET-MR imaging was performed to evaluate myocardial perfusion (13N-ammonia) and innervation (11C-epinephrine), together with late gadolinium enhanced MR imaging for scar quantification. The next day electro-anatomical mapping was performed. The BZ was defined using contact mapping as the region with bipolar voltage between 0.5 and 1.5 mV. A non-contact recording of a 64-electrode array was translated to 2048 non-contact electrograms distributed over the LV (EnSite PrecisionTM, St. Jude/Abbott Medical). In each of the 2048 points non-contact electrograms over 25 consecutive beats were processed to determine the beat-to-beat variability of repolarization (BVR). Spatial heterogeneity of repolarization was quantified in each point as the repolarization time variability within a 1cm radius neighborhood. MI size was 14.2±3.2% of the left ventricle on gadolinium enhanced MR imaging. The perfusion and innervation defects were significantly larger (22.3±3.2%, P<0.01 and 28.1±4.3%, P<0.01 respectively). The innervation defect was also significantly larger than the perfusion defect (P=0.03). Regional analysis revealed less innervation in the anterior versus the septal border zone (14.2±2.9 %/min vs 18.6+3.1 %/min, P<0.01). In one animal the electrophysiology study was unsuccessful due to a high baseline heart rate (>120 BPM). In the remaining animals, the average spatial heterogeneity was higher in the anterior than septal border zone (5.8±3.0 ms vs 3.8±2.6 ms, P<0.01). Additionally, the maximum BVR tended to be higher in the anterior than septal border zone (2.6±1.3 ms vs 2.02±0.77 ms, P=0.08). MI resulting from LAD occlusion/reperfusion leads to increased denervation on the anterior side of the infarct, correlating with increased repolarization heterogeneity in this region.