Radiofrequency cathter ablation (RF CA) has proven its superiority vs antiarrhythmic drugs (AAD) for maintaining sinus rhythm (SR) in patients with atrial fibrillation (AF). It was also reported that it has reduced mortality in patients with heart failure by about 40%1, along with the incidence of ischemic stroke2 and dementia3. However, long-term successful outcome for persistent atrial fibrillation (PsAF) is lower than for paroxysmal AF. Although additional ablation beyond the pulmonary veins (PVs) is considered to maximize success rates, a randomized clinical trial has proven no benefit from additional ablation4.
There are also contradictory results concerning the same type of additional ablation (besides pulmonary vein isolation), with some authors finding that linear ablation or CFAEs do not add on efficacy4 while others show that they are essential for long term succes5. These conflicting results might be explained by inhomogenous ablation techniques and procedural end-points. If there is a difference in overall success rate between patients with acute termination of AF during ablation and those without is still under debate5,6.
We sought to determine the long term clinical outcome in persistent AF patients who underwent one or more RF CA in a stepwise approach and to identify the prognostic factors for the clinical success after all procedures, in regard to patient characteristics and procedural end-point (tachyarrhythmia termination (TT) by RF delivery). We also aimed to assess whether continuation of antiarrythmic therapy in the blanking period (1 to 3 months after the procedure) influences long term results.
A total of 94 consecutive patients with Ps and LSPsAF who underwent catheter ablation in our center were retrospectively analyzed. Preprocedural characteristics (significant comorbidities, cardiovascular risk factors, AF history, prior medication), ECGs (before and after the procedure), routine laboratory tests and echocardiographic data were collected. All patients had previously tried at least one antiarrhythmic medication without success.
A stepwise CA (pulmonary vein antral isolation (PVAI) followed by CFAE or resultant atrial tahcycardia/flutter elimination) under Carto 3 (Biosense Webster, Irvine, CA) was performed, on uninterrupted antioagulation (NOAC/VKA), with femoral approach and acces to the left atrium via single transseptal puncture with a Lasso Nav catheter and a Thermocool Smart Touch (Biosense Webster, Irvine, CA) ablation catheter. After the transseptal puncture, unfractionated heparin was administered in order to maintain an ACT ≥350sec, ACT was monitored every 30 minutes.
The technique used for pulmonary vein isolation was circumferential antral ablation, each vein separately or encircling two ispilateral veins. Pulmonary vein entrance and exit block was demonstrated for all the veins.
When sinus rhythm was obtained during RF delivery for PVAI/or the patient was in sinus rhythm from the beginning, the procedure was continued until all the pulmonary veins were isolated and no further left atrial substrate ablation was performed. If the patient was still in AF/AT/AFL after PVAI, CFAE/lines/activation guided ablation was performed until SR was obtained. Regions with a mean cycle length of less than 120 ms and low amplitude (often <0.5 mV) with a repetitive pattern of local activation were defined as „CFAE” based on previously published data7,8.
If AF or resultant tachyarrhythmia continued after all possible substrate was eliminated, overdrive pacing or chemical/electrical conversion to SR was performed, as ilustrated in Figure 1. If AF was converted to an AT/AFL, it was mapped and ablated using 3D-activation mapping and entrainment maneuvers. When a critical isthmus of a macroreentrant circuit was identified, the lesions were deployed to achieve complete bidirectional conduction block. Arrhythmia induction after ablation was not attempted.
After restoration of sinus rhythm, a cavotricuspid isthmus (CTI) line was created in all patients, with an endpoint of bidirectional isthmus block.
During the repeat procedure, persistence of pulmonary vein isolation was evaluated first. In the presence of conduction recovery, re-isolation of the PVs was performed, then the strategy was similar with the initial procedure
Screening for arrhythmia recurrence was performed via clinical interview and 48 hours Holter monitoring at 1, 3 and 6 months and then every 6 months. A 3 months blanking period was used for definition of recurrence status. Recurrence was defined as documented AF/ATs/AFL on the ECG or 48-h Holter monitoring, lasting >30 seconds.
IBM SPSS Statistics 22 and Analyse-It software for Microsoft Excel were used to analyse the data. Continuous variables are presented as mean±standard deviation or median (IQR), categorical variables by frequencies. For comparison of the subgroups, Wilcoxon-Mann-Whitney and Fisher’s exact tests were employed, as well as Kaplan Meier plots to compare the cumulative probability of survival without arrhythmia relapse, Cox multivariate regression to evaluate the predictors of arrhythmia recurrence.
The cohort included 94 patients, predominantly males (71%) with a mean age of 54.5 ±11.4 years and a mean time from first AF diagnostic of 5.5±3.7 years. At the initial procedure 18.4% (14 patients) were in SR. More than half of the patients (53.1%) underwent a single procedure, 35.1% two procedures, 10.6% three and 1.2% had 4 procedures.
There were no significant differences between the group in which TT was obtained during RF delivery and the one in which the sinus rhyhtm was obtained via other methods, in regard to comorbidities and risk factors (Table 1).
Preprocedural characteritics of the studied patients
Age (years) | 55.4±11.7 | 60±11.5 | 0.11 |
BMI (kg/m2) | 28.63±3.5 | 28.61±3.7 | 0.85 |
AF history (years) | 5.14±3.05 | 4.96±4.39) | 0.5 |
AF type LS-Ps | 7.4% | 24.2% | 0.16 |
Male sex (%) | 70.4% | 78.1% | 0.55 |
Hypertension | 54% | 75.9% | 0.14 |
Ischemic heart disease | 21.7% | 20.7% | 1 |
Heart failure | 50% | 34.8% | 0.5 |
Structural heart disease | 19.2% | 8.3% | 0.26 |
Dyslipidemia | 50% | 75% | 0.08 |
Type II diabetes | 34.8% | 20.7% | 0.34 |
Obstructive sleep apnea | 28.6% | 33.3% | 0.76 |
Smoking | 16.7% | 20% | 0.8 |
Atrial flutter | 77.3% | 55.6% | 0.14 |
PSVT associated | 5% | 7.1% | 0.79 |
CHA2DS2VASC score | 2.6±2 | 1.7±2.1 | 0.13 |
Cholesterol | 171.11±39.01 | 165.98±39.36 | 0.69 |
Triglycerides | 131.7±90.21 | 129.80±64.7 | 0.81 |
Serum creatinine level | 0.99±0.2 | 0.83±0.2 | 0.09 |
NTproBNP | 355.5±152.03 | 861.43±852.67 | 0.42 |
Serum hemoglobin | 12.13±2.6 | 14.19±0.9 | 0.11 |
P wave duration(ms) | 117.7±16.9 | 111±22.7 | 0.22 |
PR interval (ms) | 190.8±26.8 | 194.5±45.7 | 1 |
QRS duration (ms) | 95.5±17.5 | 93.8±20.9 | 0.53 |
cQT interval (ms) | 462.5±32.7 | 441.9±34.8 | 0.13 |
LA(ap diam, mm) | 45.7±4.5 | 42.7±7.8 | 0.04 |
LA area (cm2) | 24.11±4.01 | 23.09±4.16 | 0.66 |
LA (volume, ml/m2) | 44.69±11.9 | 47.27±6.88 | 0.88 |
RA (diam, mm) | 43.2±6.8 | 43±8.2 | 0.8 |
LVEF (%) | 54.87±6.14 | 49.96±10.59 | 0.09 |
TT=tachyarrhythmia termination; PSVT=paroxysmal supraventricular tachycardia, LA=left atrium, RA=right atrium, LVEF=left ventricular ejection fraction.
Acute intraprocedural restoration of sinus rhythm was achieved in 93.4% of the cases, 43% by ablation of CFAE or resultant atrial tachycardia/flutter, 36.2% by electric cardioversion, 7.4% by chemical conversion, 3.1% overdrive pacing, 3.7% spontaneously/mechanical.
In the subgroup in which tachyarrythmia termination (TT) was obtained by ablation, in 73% of the cases SR conversion happened during RF delivery for CFAE/other substrate ablation and 23% of the case during PVAI (the regions targeted for substrate elimination are shown in below in Figure 3).
After a mean of 1.7±0.8 procedures at a mean follow up of 80±28 months, arrhythmia recurrence rate was 41% (39 patients).
A Kaplan-Meier analysis (Figure 4) showed that survival without arrhythmic recurrence was significantly greater for the patients in which sinus rhythm was obtained during RF delivery (log rank p =0.003).
Univariate analysis indicated that intraprocedural organization (meaning that after RF applications atrial fibrillation was converted into atypical atrial flutter/atrial tachycardia) was associated with a lower risk of arrhythmia relapse (p=0.002). Also the mean CHA2DS2VASC score (2.5±1.7 vs 1.2±2.2, p=0.04), and TT during RF (p – 0.02) were predictors for lower arrhyhtmia recurrence. Smaller left atrial volumes (79.5±23 ml vs 92.5±26 ml) and lower LDL levels (89.51±22.4 vs 122.6±26.4) were found in the group with lower arrhyhtmia recurrence but did not reach statistical significance (p=0.07).
Procedural aspects and success rates
Acute SR restoration | 93.4% |
CFAE ablation | 60% |
Lines/PWBI | 23% |
Atypical atrial flutter ablation | 20.5% |
Recurrence rate after first procedure | 65.2% |
Recurrence rate after all procedures | 41% |
CFAE=complex fractioneted atrial electrograms; PWBI=posterior wall box isolation; SR=sinus rhythm.
A total of 19 patiens (~20%) patients received AAD post ablation in the blanking period (mean duration 1.9±1months). Amiodarone and propafenone were most frequently used, followed by flecainide and sotalol.
Short-term use of AAD in the blanking period did not lead to improved clinical outcomes at the later phase (p=0.8) as seen in the Kaplan Meier (Figure 5).
Univariate characteristics with a
The main finding of our study is that in patients with PsAF and LS-PsAF tachyarrhyhtmia termination during RF ablation portends a higher success rate.
The rationale for using termination as an endpoint of catheter ablation has been considered by analogy with other tachyarrhythmias, termination of a longstanding arrhythmia during radiofrequency delivery that can be attributed to the functional elimination of a critical driving mechanism.
Univariate predictors of arrhythmia recurrence
Age (years) | 56.5±12.6 | 55.6±11 | 0.5 |
Weight (kg) | 89±16.6 | 84.8±15.1 | 0.66 |
BMI | 29.06±4.1 | 27.29±3.7 | 0.12 |
AF history (years) | 5.95±3.86 | 5.6±3.63 | 0.69 |
LS-Ps AF type (%) | 12.8% | 7.4% | 0.69 |
Males (%) | 73.7% | 85.2% | 0.36 |
Hypertension | 66.7% | 48% | 0.18 |
Ischemic heart disease | 24.3% | 12.5% | 0.33 |
Heart failure | 25.9% | 44.4% | 0.21 |
Dyslipidemia | 52.8% | 56% | 1 |
LDL cholesterol | 89.51±22.4 | 122.6±26.4 | 0.07 |
Type II diabetes | 22.2% | 19.2% | 1 |
GFR(MDRD) | 84.88±9.9 | 90.66±33 | 0.54 |
CHA2DS2Vasc | 2.5±1.7 | 1.2±2.2 | 0.04 |
Pw duration | 113.4±21.5 | 118±13.6 | 0.28 |
PR interval | 188.1±40.2 | 194.7±22 | 0.37 |
cQTi | 449.4±34.5 | 451.4±38 | 0.61 |
LA ap mm | 42.1±5.1 | 43.9±5.8 | 0.26 |
LA diam1 | 52.1±10.1 | 50±9 | 0.54 |
LA area (cm2) | 22.93±6.27 | 24.5±5.24 | 0.31 |
LA volume | 92.5±26.7 | 79.5±23.5 | 0.07 |
E/A | 2.03±0.65 | 1.75±0.7 | 0.4 |
TAPSE | 20.7±8.7 | 25.8±4.8 | 0.43 |
Intraprocedural oganization | 30.3% | 71.4% | 0.002 |
TT during RF delivery | 22.2% | 65.5% | 0.02 |
CFAE ablation | 71.9% | 69.2% | 1 |
Comparison of the subgroups with and without short term antiarrhythmic drugs (AAD) postablation
Age | 54 ±11.6 | 55 ±11.5 | 0.9 |
BMI | 29.3 ±3.9 | 29 ±3.8 | 1 |
Pwave (ms) | 120 ±20 | 145 ±10 | 0.7 |
AF duration | 5.6 ±2.3 | 5.7 ±4.5 | 0.9 |
LA-d | 61 ±2.1 | 60.2 ±11.2 | 0.9 |
LA-area (cm2) | 31 ±2.8 | 24 ±2.9 | 0.07 |
LAAfw (m/s) | 0.5 ±0.57 | 0.36 ±0.13 | 0.2 |
AF term by ABLA | 37.5% | 45% | 1 |
Our findings, that AF termination during RF delivery improves outcomes after catheter ablation of persistent AF have been previously reported in several studies9,10,11. Other trials, including the STAR AF II randomized trial, where PVI alone was compared to CFAE and linear ablations, showed no significant difference in 18-month AF-free survival between patients with and without acute arrhyhtmia termination (52.7% versus 42.4%; p=0.09), or among the three ablation strategies regardless of termination (59% of patients were AF-free at 18 months in the PVI group compared with 49% in the PVI + CFAE group and 46% in the PVI + linear ablation group; p=0.15). However, termination during the PVI step was predictive of AF-free survival (49.3% versus 35.7% in termination versus no termination, respectively; p=0.01)4. Nonetheless, a major criticism of STAR-AF II is that in 26% of the patients block was no present in the lines created.
Our overall success rate (59% after all multiple procedures) it is similar to those reported in most of the studies and it should be noted that, because of symptom improvement in a number of cases, some patients with recurrence did not undergo a repeat ablation. A higher rate of re-ablation may have resulted in improved outcomes (mean procedure number 1.7±0.8 is somewhat lower than usual values reported for catheter ablation for persistent AF)5,12. AAD use during blanking period after AF ablation did not influence outcomes in our study.
The mode of AF termination (directly to sinus rhythm versus via transformation into a more organized form of atrial arrhythmia tachycardia/atrial flutter) was not predictive of recurrence in some studies13, in our case intraprocedural organization seemed to be associated with fewer relapses but only in the univariate analysis. Some reaserchers find that AF termination at index ablation is associated with a greater proportion of recurrences in the form of AT/AFL relative to AF10. These, and perhaps other contradictory results, could be explained by the lack of standardization of the additional lesion sets and the fact that even apparently similar techniques (lines/CFAE) are defined and performed in various manners and with different endpoints in different centres.
Therefore, more focused mapping and ablation of non-PV triggers might be the solution for better rhythm outcome of PeAF ablation rather than an empirical extra-PV LA ablations. It might be essential to also consider patient factors before procedure, including clinical characteristics, biomarkers or genetic factors9 when choosing an ablation strategy for PsAF.
Our study shows that arrhythmia termination during ablation, regardless of the method by which it is obtained, (CFAE/lines/etc) seems to indicate a more favourable prognosis but alternatively may indicate a subgroup of patients with a limited and ablation-sensitive set of driver mechanisms and more research is necessary in order to properly select the cases that warrant additional ablation beyond the PVAI.
This is a single center, observational study, with a relatively small cohort and there was no randomization between groups with AAD vs without AAD.
Although the follow-up method was according to the guidelines, it is possible that the time to AF for some patients might not have been accurately captured due to intermittent monitoring.
We have found that in patients with PsAF and LSPsAF restoration of sinus rhyhtm during pulmonary vein isolation, ablation of CFAE or resultant atrial tachycardia predicts long term procedural success. Further research to determine the best strategy to achieve this outcome is necessary. Postprocedural AAD do not influence long term results.