Circumferential radiofrequency ablation of pulmonary vein ostia: A new anatomic approach for curing atrial fibrillation.

BACKGROUND: The pulmonary veins (PVs) and surrounding ostial areas frequently house focal triggers or reentrant circuits critical to the genesis of atrial fibrillation (AF). We developed an anatomic approach aimed at isolating each PV from the left atrium (LA) by circumferential radiofrequency (RF) lesions around their ostia. METHODS AND RESULTS: We selected 26 patients with resistant AF, either paroxysmal (n=14) or permanent (n=12). A nonfluoroscopic mapping system was used to generate 3D electroanatomic LA maps and deliver RF energy. Two maps were acquired during coronary sinus and right atrial pacing to validate the lateral and septal PV lesions, respectively. Patients were followed up closely for >/=6 months. Procedures lasted 290+/-58 minutes, including 80+/-22 minutes for acquisition of all maps, and 118+/-16 RF pulses were deployed. Among 14 patients in AF at the beginning of the procedure, 64% had sinus rhythm restoration during ablation. PV isolation was demonstrated in 76% of 104 PVs treated by low peak-to-peak electrogram amplitude (0. 08+/-0.02 mV) inside the circular line and by disparity in activation times (58+/-11 ms) across the lesion. After 9+/-3 months, 22 patients (85%) were AF-free, including 62% not taking and 23% taking antiarrhythmic drugs, with no difference (P:=NS) between paroxysmal and permanent AF. No thromboembolic events or PV stenoses were observed by transesophageal echocardiography. CONCLUSIONS: Radiofrequency PV isolation with electroanatomic guidance is safe and effective in either paroxysmal or permanent AF.

Atrial electroanatomic remodeling after circumferential radiofrequency pulmonary vein ablation: efficacy of an anatomic approach in a large cohort of patients with atrial fibrillation.

BACKGROUND: Circumferential radiofrequency ablation around pulmonary vein (PV) ostia has recently been described as a new anatomic approach for atrial fibrillation (AF). METHODS AND RESULTS: We treated 251 consecutive patients with paroxysmal (n=179) or permanent (n=72) AF. Circular PV lesions were deployed transseptally during sinus rhythm (n=124) or AF (n=127) using 3D electroanatomic guidance. Procedures lasted 148+/-26 minutes. Among 980 lesions surrounding individual PVs (n=956) or 2 ipsilateral veins with close openings or common ostium (n=24), 75% were defined as complete by a bipolar electrogram amplitude <0.1 mV inside the lesion and a delay >30 ms across the line. The amount of low-voltage encircled area was 3594+/-449 mm(2), which accounted for 23+/-9% of the total left atrial (LA) map surface. Major complications (cardiac tamponade) occurred in 2 patients (0.8%). No PV stenoses were detected by transesophageal echocardiography. After 10.4+/-4.5 months, 152 patients with paroxysmal AF (85%) and 49 with permanent AF (68%) were AF-free. Patients with and without AF recurrence did not differ in age, AF duration, prevalence of heart disease, or ejection fraction, but the LA diameter was significantly higher (P<0.001) in permanent AF patients with recurrence. The proportion of PVs with complete lesions was similar between patients with and without recurrence, but the latter had larger low-voltage encircled areas after radiofrequency (expressed as percent of LA surface area; P<0.001). CONCLUSIONS: Circumferential PV ablation is a safe and effective treatment for AF. Its success is likely due to both PV trigger isolation and electroanatomic remodeling of the area encompassing the PV ostia.

[Prospects of the treatment of atrial fibrillation. Circumferential radiofrequency ablation of pulmonary vein ostia]. / Prospettive nel trattamento della fibrillazione atriale. L'ablazione circonferenziale in radiofrequenza degli osti delle vene polmonari.

The dominance of the left atrium (LA) in the pulmonary vein (PV) regions for triggering and maintaining atrial fibrillation (AF) is now widely recognized. Radiofrequency (RF) PV isolation with electroanatomical guidance has recently emerged as a promising approach for AF treatment. We report the clinical outcome of the procedure in 251 consecutive patients with paroxysmal (n = 179) or permanent (n = 72) AF. Circular RF lesions were deployed transseptally during sinus rhythm or AF at 5 mm from PV ostia. Procedural and mapping times were 112 +/- 32 min and 75 +/- 27 min, respectively, with 29 +/- 11 min of fluoroscopy. Complete lesions (peak-to-peak bipolar electrogram amplitude < 0.1 mV inside the line and no double potentials) were achieved in 85% of the veins treated. Sinus rhythm was restored during RF delivery in 52% and by DC shock in the remaining. Major complications (cardiac tamponade) occurred in 3%. Extent of ablated area was 4.9 +/- 0.5 cm2, accounting for 28 +/- 9% of the total LA map surface. After 11 +/- 5 months, procedure success rates (freedom from AF without antiarrhythmic drugs) were 85% for paroxysmal and 68% for permanent AF. No PV stenoses were detected. By univariate analysis, an increased risk of recurrence was predicted by LA dilation (diameter > 50 mm), AF duration, and a low ablated area (< 15% of total LA surface). After adjustment, only the latter variable continued to be significant (odds ratio 3.5, 95% confidence interval, 1.6-5.8). In conclusion, RF PV isolation is safe and effective in either paroxysmal or permanent AF. Patients with enlarged left atrium may require wider lesions to achieve AF suppression.

Solute kinetics in hypertonic hemodiafiltration and standard hemodialysis.

Hemodiafiltration (HDF) is a new dialysis treatment that combines convective and diffusive forces. In order to assess the efficiency of a peculiar model of hypertonic HDF (H HDF), we studied eight uremic patients when they were undergoing five sessions of H HDF of 180 minutes duration and two sessions of standard hemodialysis (HD) of 270 minutes duration with a comparable blood (approximately 400 mL/min) and dialysate flow rate (approximately 520 mL/min). The plasma water clearances (Kw) of small [urea (U), creatinine (C), uric acid (UA), and phosphorus (P)] and middle molecules [netilmicin (N) and inulin (I)] were exceedingly higher in H HDF than in HD; however, because of the different treatment times, U and C removal (R) in HD overcame and UA and P R in HD equalized that in H HDF. The factor time was not sufficient to HD to compensate for the large difference in Kw in the case of I. Additional studies were performed in seven out of the eight patients after two sessions of H HDF and one session of HD. Two significantly higher rebounds were observed when comparing both treatments: for U after HD and for parathyroid hormone (PTH) after H HDF; however, PTH Cx/Cs ratios (ratios of the plasma water concentration of PTH at any postdialysis time to the plasma water concentration of PTH at the start of the run) were not different in both treatments, meaning that there was an increased PTH secretion in the early post H HDF hours in order to compensate for the larger PTH R with H HDF.(ABSTRACT TRUNCATED AT 250 WORDS)