P wave duration ≥120 ms and abnormal morphology predicted atrial fibrillation recurrence, with 30-month freedom from AF of 13% vs 56% for duration and 28% vs 74% for morphology (P<0.01).
Cohort (n=140)
Do P wave duration and morphology predict atrial fibrillation recurrence in patients with sinus node dysfunction and an atrial-based pacemaker?
P wave duration and morphology are significant independent predictors of post-pacing atrial fibrillation recurrence and permanent AF in patients with sinus node dysfunction.
Tasa de eventos absoluta: 13% vs 56%
valor p: p=<0.01
DE SISTI, A., et al. : P Wave Duration and Morphology Predict Atrial Fibrillation Recurrence in Patients with Sinus Node Dysfunction and Atrial‐Based Pacemaker. P wave duration and morphology have never been systematically evaluated as markers of AF in patients with a conventional indication to pacing. This study correlated sinus P wave duration and morphology and the incidence of AF in patients with sinus node dysfunction (SND), previous history of AF before implant, and atrial‐based pacemaker. Included were 140 patients (86 men, 54 women; mean age 71.8 ± 10.4 years) with recurrent paroxysmal AF and who received a DDD (128 patients) or AAI (12 patients) pacemaker for SND. Forty‐nine patients had structural heart disease. Sinus P wave duration and morphology was evaluated in leads II, III. Twenty‐two patients had an abnormal P wave morphology, diphasic (+/‐) in 5 and notched (+/+) in 17. The basic pacemaker rate was programmed between 60 and 70 beats/min. Rate responsive function was activated in 65 patients. During a follow‐up of 27.6 ± 17.8 months, AF was documented in 87 patients. Forty‐four patients developed permanent AF, following at least one episode of paroxysmal AF in 26 cases. Statistical analysis used Cox model regression. Univariate predictors of AF (P < 0.10) were drugs (mean: 2 ± 1.4 ) and DC shock before pacing (16/140 patients), P wave duration (mean 112.5 ± 24.6 ms), basic pacemaker rate (mean 68 ± 5 beats/min), and drugs in the follow‐up (mean 1.2 ± 0.94 ). Multivariate analysis showed that P wave duration ( b = 0.013, s.e. = 0.004; P = 0.003 ), and drugs before pacing ( b = 0.2; s.e.= 0.08; P < 0.01 ) resulted in a significant independent predictor of AF. Actuarial incidence of patients free of AF at 30 months was 35%: 56% in patients with a P wave < 120 ms, and 13% in those with P wave ≥ 120 ms (P < 0.01 by Score test). Univariate predictors of permanent AF were drugs and DC shock before pacing, left atrial size (mean 39 ± 6 mm), P wave duration, abnormal P wave morphology (22/140 patients), and drugs in the follow‐up. Multivariate analysis showed that P wave morphology was the most important predictor of permanent AF ( b = ‐ 0.56, s.e.= 0.2; P = 0.008 ). Incidence of patients free of permanent AF at 30 months was 69%: 74% in patients with normal P wave, compared to 28% in the case of abnormal P wave morphology (P < 0.01). P wave duration and morphology are good markers of postpacing AF recurrence in patients with SND and an atrial‐based pacemaker. This observation suggests that intra‐ and interatrial conduction disturbances be extensively evaluated before implantation, and the indication for atrial resynchronization procedures be reevaluated.
Sisti et al. (Fri,) conducted a cohort in Sinus node dysfunction with recurrent paroxysmal AF and atrial-based pacemaker (n=140). P wave duration and morphology vs. P wave < 120 ms vs ≥ 120 ms; normal vs abnormal morphology was evaluated on Freedom from AF at 30 months (p=<0.01). P wave duration ≥120 ms and abnormal morphology predicted atrial fibrillation recurrence, with 30-month freedom from AF of 13% vs 56% for duration and 28% vs 74% for morphology (P<0.01).
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