The purpose of this study was to test the hypothesis that ablation of the LOM and the superior left ganglionated plexi (SLGP) reduces atrial vulnerability and results in remodeling of the SG.
Nerve activity was correlated to PAT and ventricular rate (VR) at baseline, after ablation of the LOM and SLGP, and after atrial fibrillation. Neuronal cell death was assessed with tyrosine hydroxylase and terminal deoxynucleotidyl transferase dUTP nick end label (TUNEL) staining.
There were 4 ± 2 PAT episodes per day in controls. None were observed in the ablation group, even though SG nerve activity and VR increased from 2.2 µV (95% confidence interval [CI] 1.2–3.3 µV) and 80 bpm (95% CI 68–92 bpm) at baseline, to 3.0 µV (95% CI 2.6–3.4 µV, P = .046) and 90 bpm (95% CI 75–108 bpm, P = .026) after ablation, and to 3.1 µV (95% CI 1.7–4.5 µV, P = .116) and 95 bpm (95% CI 79–110 bpm, P = .075) after atrial fibrillation. There was an increase in tyrosine hydroxylase–negative cells in the ablation group and 19.7% (95% CI 8.6%–30.8%) TUNEL-positive staining in both the left and right SG. None were observed in the control group.
LOM and SLGP ablation caused left SG remodeling and cell death. There was reduced correlation of the VR response and PAT to SG nerve activity. These findings support the importance of SLGP and LOM in atrial arrhythmogenesis.