Non-valvular atrial fibrillation and stroke prevention

Abstract

• Atrial fibrillation (AF) affects 5% of people older than 65 years.
  
• Among patients with AF, the risk of stroke averages about 5% per year.
  
• The risk of stroke increases cumulatively with increasing age, previous transient ischaemic attack or stroke, hypertension, diabetes, impaired left ventricular function and a large left atrium.
  
• Management aims to identify and treat the underlying cause, control the ventricular rate, restore and maintain sinus rhythm, and minimise the risk of stroke.
  
• Warfarin reduces the risk of stroke by about two-thirds, and aspirin by about one-fifth.
  
• The risk of anticoagulant-associated haemorrhage increases with serious concomitant disease, and with poorly controlled hypertension and poorly controlled anticoagulation.
  
• All patients with chronic AF should be considered for oral anticoagulant therapy, and the decision based on the balance between the risks of thromboembolism and bleeding.
  
• The recommended INR (international normalised ratio) is 2.0-3.0.
  
• Treating 1000 "average" AF patients (ie, those with a 5% per year risk of stroke) with warfarin prevents about 30 strokes and causes at least two episodes of major haemorrhage each year. Treating 1000 AF patients with aspirin prevents about 15 strokes each year.

Atrial fibrillation is an important arrhythmia because it may signify underlying heart disease, it may cause symptoms of decreased cardiac output (eg, malaise, effort intolerance) or palpitations, and it is associated with an increased risk of systemic thromboembolism and stroke. This risk of stroke averages about 5% per year among all individuals in AF, which is about 5-6 times greater than for people of the same age who are in sinus rhythm (E3₂).^1,2

     The management of AF has four principal objectives:

1. To confirm and document the arrhythmia;

2. To identify and treat the underlying cause;

3. To relieve symptoms of decreased cardiac output by controlling the ventricular rate and restoring and maintaining sinus rhythm; and

4. To reduce the risk of systemic thromboembolism, particularly stroke.

All patients, except perhaps the very elderly and infirm, should undergo investigation for underlying causes of AF, including thyroid function tests and echocardiography (E4).⁴

In haemodynamically stable patients, β-blockade, verapamil or diltiazem can be used to control the heart rate (E4). Recent-onset AF reverts spontaneously within 24 hours in at least half of patients (irrespective of whether or not they are taking digoxin) (E3₃).⁵

Patients who have been in AF for more than 48 hours should be considered for anticoagulation therapy and strategies to restore and maintain sinus rhythm. Warfarin should be administered for three weeks before cardioversion is attempted.⁶ If cardioversion can not be postponed for three weeks, the patient should undergo anticoagulation therapy with intravenous heparin and warfarin,⁷ and be considered for transoesophageal echocardiography (TOE) (E3₂). Cardioversion can probably be undertaken safely (with limited risk of stroke) if TOE excludes left atrial and appendage thrombus (and the patient is treated with heparin and warfarin) (E2).^8,9 However, if transoesophageal echocardiography identifies left atrial and appendage thrombus, then cardioversion is contraindicated until the patient has been anticoagulated for at least three weeks (E4).

The relative merits of cardioversion by electrical shock and medical therapy have been discussed recently.^4,10 Direct current cardioversion has never been subjected to a randomised trial, but appears to be the most effective method of restoring sinus rhythm. Its main disadvantage is the need for general anaesthesia. Digoxin and verapamil are ineffective for converting AF to sinus rhythm. Flecainide or sotalol are the preferred medical therapies in younger patients without structural heart disease, and amiodarone in older patients (E2).¹¹ The chances of successful cardioversion are greater if the AF is of recent onset and the left atrial size is normal (E3₃).¹²

After successful cardioversion, warfarin therapy should be continued for at least four weeks to prevent clot formation in the "stunned" left atrium (E3₃).^13,14 Antiarrhythmic drug therapy should also be continued to prevent recurrent AF, but this still occurs in 40%-50% of patients after 12 months' follow-up despite drug therapy. If the patient has a low risk of recurrence of AF (eg, "lone" AF) and remains in sinus rhythm for one month after cardioversion, anticoagulation therapy with warfarin can be ceased (E4). In patients at higher risk of recurrence (Box 2), it may be more appropriate to continue warfarin therapy for longer or indefinitely (E4).

For patients who are elderly (in whom AF is usually chronic and antiarrhythmic drug therapy may be risky) or have asymptomatic chronic AF, it is often reasonable to avoid attempted cardioversion, accept the AF and aim for adequate ventricular rate control (digoxin combined with β-blockade, verapamil or diltiazem) and long term anticoagulation therapy (E4). The results of clinical trials in patients with asymptomatic AF (of rate control and antithrombotic therapy versus attempted cardioversion and maintenance of sinus rhythm to avoid warfarin) are awaited.

Strategies for reducing the risk of stroke and systemic thromboembolism in patients with AF have been studied in several randomised controlled trials over the past decade.^15-25

Warfarin versus control

Primary prevention

Secondary prevention

The timing of anticoagulation therapy after recent ischaemic stroke depends on the risk of recurrent thromboembolism (Box 2) and the risk of haemorrhagic transformation of the brain infarct (which is higher within the first two weeks and in patients with large brain infarcts and uncontrolled hypertension [E3₂]²⁷). Common empirical practice is to treat patients with fibrillating acute ischaemic stroke immediately with aspirin (300 mg daily) and then, depending on the above factors, begin warfarin (5 mg daily) between days three and 14 after stroke onset, aiming to achieve an INR of 2.0.²⁸ However, randomised trials comparing aspirin with heparin during the first two weeks of acute ischaemic stroke among patients in AF show no benefit from early anticoagulation, because any net gains from reduction in recurrent ischaemic stroke are offset by the excess hazards of haemorrhagic stroke (E1).^29,30

Aspirin versus control

Aspirin was not associated with any significant excess of intracranial haemorrhage (aspirin, 0.16%; control, 0.13%) or major extracranial bleeding (aspirin, 0.5%; control, 0.6%) (E1).³¹ This means that aspirin might prevent about 10 to 20 strokes per 1000 patient-years of treatment, depending on the type of patient treated and their baseline risk of stroke, with little risk of major bleeding.

A speculative interpretation of these data is that, in patients with AF, aspirin prevents strokes due to atherothromboembolism, but not cardiogenic embolism. This interpretation is based on the magnitude of the effect (a 20% relative risk reduction), which is very similar to the effect of aspirin in patients with symptomatic atherothromboembolism of the brain, heart and limbs.³² Whether aspirin combined with adjusted-dose warfarin would be safe and more effective (in preventing both atherothrombotic and cardiogenic strokes) than warfarin alone in patients with AF remains unknown.³³

Warfarin versus aspirin

Warfarin combined with aspirin

Warfarin versus other antiplatelet agents

Future studies are planned to evaluate the safety and effectiveness of other, newer antiplatelet agents (such as clopidogrel, oral glycoprotein IIb/IIIa receptor inhibitors, and oral thrombin inhibitors) and combination antiplatelet therapies (such as aspirin-ticlopidine, aspirin-clopidogrel, and aspirin-dipyridamole) as strategies of thromboprophylaxis in AF.

Who to treat and with what?

Who is at high risk of stroke and thromboembolism without treatment?

These risk factors are cumulative: for people younger than 65 years with no risk factors the untreated annual risk of stroke is about 1%, whereas with one or more risk factors it is about 5%; for people aged 65-75 years with no risk factors the annual risk of stroke is about 4%, and with one or more risk factors it is about 6% per year; and for people older than 75 years with no risk factors the risk of stroke is about 3%-4%, whereas with one or more risk factors it is about 8% (see Box 2) (E1).^7,26

Who is at high risk of haemorrhage with anticoagulant treatment?

Recommendations for antithrombotic therapy for AF

The role of transthoracic echocardiography (TTE), in addition to excluding structural heart disease in all patients who first present with AF, is to further refine stroke risk in the small group of patients with a low risk of stroke according to clinical factors. Although TOE is more sensitive in detecting left atrial thrombus and spontaneous echo contrast, which are markers for increased risk of thromboembolism,^36-39 it is more invasive and is usually only required to improve risk stratification among individuals with a relative contraindication to warfarin or in whom TTE is inadequate.

The choices of thromboprophylactic agents for atrial fibrillation include warfarin, which is the most effective but also the most risky treatment, and aspirin, which is less effective than warfarin but safer (E1). The combination of aspirin and low dose warfarin is no more effective than aspirin alone (E1).^22,23 The most appropriate treatment regimen is one in which patients at high risk of stroke and low risk of haemorrhage are treated with warfarin, and patients at low risk of stroke or high risk of haemorrhage are treated with aspirin.

Who not to treat

Who to treat with aspirin

Patients taking aspirin should be monitored over time and their treatment changed to warfarin if risk factors emerge; this occurs in 10%-15% of patients being treated with aspirin per year.²¹

Who to treat with warfarin

Similarly, anticoagulant therapy should also be considered in patients with paroxysmal AF, again depending on the thromboembolic risk factors (Box 2) as well as the frequency and duration of the paroxysms. Although clinical trial evidence suggests the stroke rate of patients with paroxysmal AF is similar to that of patients with chronic AF,²⁶ the trials did not specifically examine the benefits of antithrombotic therapy in patients with paroxysmal AF. Furthermore, the range of thromboembolic risk in such patients is likely to be extremely wide, from very low for patients who have one short paroxysm once a year to considerably higher for patients who have daily lengthy paroxysms.

What is the optimal target INR?

It is important to emphasise that, in people in whom anticoagulant therapy is indicated, the risk of stroke increases substantially when the INR falls below 2.0. Patients with an INR of 1.7 have twice the odds of stroke (95% CI, 1.6-2.4 times), and those with an INR of 1.5 have 3.3 times the odds of stroke (95% CI, 2.4-4.6 times) as those with an INR of 2.0⁴⁷ (E3₂).

What if warfarin therapy needs to be ceased?

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Authors' details

Reprints will not be available from the author.
Correspondence: Clinical Associate Professor G J Hankey, Stroke Unit, Royal Perth Hospital, Wellington Street, Perth, WA 6001.
gjhankeyATcyllene.uwa.edu.au

* L Wing (chair), A Boyden, A Dart, K Duggan, M Nelson, I Puddey, M Stowasser, J Vial