Impact of epicardial adipose tissue and catheter ablation strategy on biophysical parameters and ablation lesion characteristics

Background Epicardial adipose (EA) tissue may limit effective radiofrequency ablation (RFA). Objectives We sought to evaluate the lesion formation of different ablation strategies on ventricular myocardium with overlying EA. Methods Bovine myocardium with EA was placed in a circulating saline bath in an ex vivo model. Open‐irrigated (OI) RFA was performed, parallel to the myocardium, over fat at 50 W for variable RF durations, variable contact force, catheter configurations (unipolar RF vs bipolar RF), and catheter irrigants (normal saline vs half‐normal saline). Ablation was also performed with a needle‐tipped ablation catheter (NTAC), perpendicular to the myocardium. Results Increasingly thick EA attenuated lesion size regardless of ablation strategy. RF applied with longer durations and increasing CF produced larger lesion volumes and deeper lesions with ablation over EA more than 3 mm but was unable to produce measurable lesions when EA less than 3 mm. Similarly, ablation with half normal saline irrigant created slightly deeper lesions than bipolar RF and unipolar RF with normal saline as EA thickness increased, but was unable to produce measurable lesions when EA more than 3 mm. Of all ablation strategies, only NTAC produced effective lesion volumes when ablating over thick (>3 mm) EA. Conclusions While EA attenuates lesion depth and size, relatively larger, and deeper lesions can be achieved with longer RFA duration, higher CF, half normal saline irrigant, and, to a greater extent, by utilizing bipolar RF or NTAC, but only over thin adipose (3 mm) EA with this model.