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Catheter Ablation for Atrial Fibrillation

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SBU Assessment

Presents a comprehensive, systematic assessment of available scientific evidence for effects on health, social welfare or disability. Full assessments include economic, social and ethical impact analyses. Assessment teams include professional practitioners and academics. Before publication the report is reviewed by external experts, and scientific conclusions approved by the SBU Board of Directors.

Published: Report no: 2010-06 https://int.sbu.se/201006e

Summary and conclusions

SBU’s appraisal of the evidence

This document updates a report published by SBU Alert in 2005.

Atrial fibrillation is an abnormal irregular heart rhythm (atrial tachyarrhythmia) characterized by a rapid and uncoordinated activation of the upper chambers of the heart (atria), leading to an irregular and unsynchronized activation of the lower chambers (ventricles). Atrial fibrillation is the most common tachyarrhythmia and is often associated with an impaired heart function and an increased risk for embolic stroke.

Although many patients may benefit from antiarrhythmic drug treatment, catheter ablation is a treatment option for patients with severe symptoms who do not respond to or cannot tolerate antiarrhythmic drugs. Using a special ablation catheter, heat energy can be applied to tissue around the pulmonary veins (pulmonary vein isolation) and, in some cases, to certain areas in the left atrium.

  • In patients with severe symptoms of atrial fibrillation, refractory to conventional treatment with medication, catheter ablation is more effective than continued pharmacotherapy in treating symptoms. Results of follow-ups (up to 12 months) show that patients with paroxysmal atrial fibrillation respond more favourably to catheter ablation than those with persistent atrial fibrillation.
  • The catheter ablation treatment carries risks for serious complications, and its risk profile differs from that of continued pharmacotherapy. Hence, it is important that patients who are candidates for catheter ablation receive comprehensive and objective information about the benefits and risks.
  • The scientific evidence is insufficient for drawing conclusions about the cost-effectiveness of the method, since its long-term effects are uncertain.

Technology and target group

Pulmonary vein isolation (electrical isolation of the pulmonary veins) is an invasive procedure during which an ablation catheter is used to apply heat energy around the pulmonary veins. It is currently the standard method shown to be most effective against recurrences of paroxysmal atrial fibrillation. The risk of recurrence is higher for patients with persistent atrial fibrillation, despite adjunct therapies. New ablation methods are being developed.

The experience with atrial fibrillation ablation therapy in patients above 70 years of age is relatively limited. The complication rate appears to be higher in this age group. Hence, the method is primarily recommended for people who are below 70 years of age and without marked enlargement of the left atrium. If ablation therapy is offered primarily to patients 70 years of age and younger, the potential target population for the method is estimated to be approximately 2 000 patients per year in Sweden.

Primary questions

  • Is catheter ablation a more effective method than drugs in treating symptoms of atrial fibrillation?
  • What complications and side effects are associated with catheter ablation?
  • What does treatment cost? Is it cost-effective?

Patient benefit

  • At up to 12 months of follow-up, the prevalence of symptomatic atrial fibrillation is lower among patients treated with catheter ablation than among those who were continued on antiarrhythmic drugs (Evidence grade 2)*.
  • Quality of life improves more in patients who undergo catheter ablation therapy than in those who continue on antiarrhythmic drugs (Evidence grade 2)*.
  • The outcomes are better among patients with paroxysmal atrial fibrillation than among those with persistent atrial fibrillation (Evidence grade 3)*.
  • Treatment with catheter ablation carries some risk for serious complications (Evidence grade 3)*.

Studies that have compared pharmacotherapy with ablation therapy are of medium or high quality, but offer limited information about long-term effects.

Findings from several randomized trials show that symptomatic atrial fibrillation occurs less often in patients that have undergone catheter ablation therapy than in those treated with antiarrhythmic drugs. Quality of life is more favourably affected by ablation than by drugs.

Treatment results are better among patients with paroxysmal atrial fibrillation than among those with persistent atrial fibrillation.

Serious complications occur in 4–5 percent of patients treated by catheter ablation. The most serious complication following ablation in the posterior wall of the left atrium involves development of a fistula between the left atrium and the esophagus. Other serious complications are cardiac tamponade, thromboembolism, pulmonary vein stenosis, and permanent damage to structures adjacent to the left atrium, eg, the phrenic nerve.

Ethical aspects

Catheter ablation therapy can markedly improve health and quality of life in patients with pronounced symptoms and who cannot be treated effectively with drugs. The procedure carries some risk for serious complications. Hence, it is important that patients who are candidates for treatment receive comprehensive and objective information concerning the risks and the expected benefits of the method.

Economic aspects

  • The scientific evidence is insufficient* for drawing conclusions about the cost-effectiveness of the method since its long-term effects are uncertain.

The cost of the procedure is estimated at approximately 85 000 Swedish kronor (SEK), including examinations and 2 to 4 days of hospitalization. To achieve its intended effects, the procedure may need to be repeated. Economic analyses suggest that catheter ablation can be a cost-effective treatment method in patients where antiarrhythmic agents have not yielded the desired effects. However, there is some uncertainty concerning the extent to which the positive effects on patients’ quality of life continue over the long-term.

* Criteria for evidence grading SBU’s conclusions
Evidence grade 1 – Strong scientific evidence. The conclusion is corroborated by at least two independent studies with high quality, or a good systematic overview.
Evidence grade 2 – Moderately strong scientific evidence. The conclusion is corroborated by one study with high quality, and at least two studies with medium quality.
Evidence grade 3 – Limited scientific evidence. The conclusion is corroborated by at least two studies with medium quality.
Insufficient scientific evidence – No conclusions can be drawn when there are not any studies that meet the criteria for quality.
Contradictory scientific evidence – No conclusions can be drawn when there are studies with the same quality whose findings contradict each other.

SBU Alert is a service provided by SBU in collaboration with the Medical Products Agency, the National Board of Health and Welfare, and the Swedish Association of Local Authorities and Regions.

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