Atrial flutter is a
cardiac arrhythmia characterized by atrial rates of 240-400 beats/min and some
degree of atrioventricular (AV) node conduction block. For the most part,
morbidity and mortality are due to complications of rate (eg, syncope and
congestive heart failure [CHF]).
Essential update: Catheter ablation successfully treats
scar-related atypical atrial flutter
With the aid of a
combination of high-density activation and entrainment mapping, catheter
ablation can be successfully used to treat scar-related atypical atrial flutter
or atrial tachycardia, according to a report by Coffey et al.[1] The retrospective investigation also found that the highest
rates of acute and long-term recurrences of atrial tachycardia were in patients
with the septal form of the condition.
The study involved 91
consecutive patients with a total of 171 atrial tachycardias.[1] Irrigated radiofrequency ablation (RFA) of constrained areas
along the circuit produced acute success rates of 97% for patients with
nonseptal atrial tachycardia and 77% and those with septal atrial tachycardia.
Long-term success rates were 82% for patients with nonseptal atrial tachycardia
and 67% for those with at least 1 septal atrial tachycardia.
In patients whose
atrial tachycardia was associated with previous catheter ablation, cardiac
surgery or a maze procedure, or idiopathic atrial scarring, the long-term
success rates were 75%, 88%, and 57%, respectively.
Signs and symptoms
Signs and symptoms in
patients with atrial flutter typically reflect decreased cardiac output as a
result of the rapid ventricular rate. Typical symptoms include the following:
·
Palpitations
·
Fatigue or poor
exercise tolerance
·
Mild dyspnea
·
Presyncope
Less common symptoms
include angina, profound dyspnea, or syncope. Tachycardia may or may not be
present, depending on the degree of AV block associated with the atrial flutter
activity.
Physical findings
include the following:
·
The heart rate is
often approximately 150 beats/min because of a 2:1 AV block
·
The pulse may be
regular or slightly irregular
·
Hypotension is
possible, but normal blood pressure is more commonly observed
Other points in the
physical examination are as follows:
·
Palpate the neck and
thyroid gland for goiter
·
Evaluate the neck for
jugular venous distention
·
Auscultate the lungs
for rales or crackles
·
Auscultate the heart
for extra heart sounds and murmurs
·
Palpate the point of
maximum impulse on the chest wall
·
Assess the lower
extremities for edema or impaired perfusion
If embolization has
occurred from intermittent atrial flutter, findings are related to brain or
peripheral vascular involvement. Other complications of atrial flutter may
include the following:
·
CHF
·
Severe bradycardia
·
Myocardial
rate–related ischemia
Diagnosis
The following
techniques aid in the diagnosis of atrial flutter:
·
ECG – This is an
essential diagnostic modality for this condition
·
Vagal maneuvers –
These can be helpful in determining the underlying atrial rhythm if flutter
waves are not seen well
·
Adenosine – This can
be helpful in the diagnosis of atrial flutter by transiently blocking the AV
node
·
Exercise testing –
This can be utilized to identify exercise-induced atrial fibrillation and to
evaluate ischemic heart disease
·
Holter monitor – This
can be used to help identify arrhythmias in patients with nonspecific symptoms,
to identify triggers, and to detect associated atrial arrhythmias
Transthoracic
echocardiography (TTE) is the preferred modality for evaluating atrial flutter.
It can evaluate right and left atrial size, as well as the size and function of
the right and left ventricles, and this information facilitates diagnosis of
valvular heart disease, left ventricular hypertrophy (LVH), and pericardial
disease.
Management
General treatment
goals for symptomatic atrial flutter are similar to those for atrial
fibrillation. They include the following:
·
Control of ventricular
rate – This can be achieved with drugs that block the AV node; intravenous (IV)
calcium channel blockers (eg, verapamil and diltiazem) or beta blockers can be
used, followed by initiation of oral agents
·
Restoration of sinus
rhythm – This can be done by means of electrical or pharmacologic cardioversion
or RFA; successful ablation reduces or eliminates the need for long-term
anticoagulation and antiarrhythmic medications
·
Prevention of
recurrent episodes or decrease in their frequency or duration – In general, the
use of antiarrhythmic drugs in atrial flutter is similar to that in atrial
fibrillation
·
Prevention of
thromboembolic complications – Adequate anticoagulation, as recommended by the
American College of Chest Physicians, has been shown to decrease thromboembolic
complications in patients with chronic atrial flutter and in patients
undergoing cardioversion
·
Minimization of
adverse effects from therapy – Because atrial flutter is a nonfatal arrhythmia,
carefully assess the risks and benefits of drug therapy, especially with
antiarrhythmic agents
