Tuesday, 21 April 2009

Atrial Fibrillation

What Is Atrial Fibrillation?

Atrial fibrillation (A-tre-al fi-bri-LA-shun), or AF, is the most common arrhythmia (ah-RITH-me-ah). An arrhythmia is a problem with the speed or rhythm of the heartbeat. A disorder in the heart’s electrical system causes AF and other types of arrhythmia.

AF occurs when rapid, disorganized electrical signals in the heart’s two upper chambers, called the atria (AY-tree-uh), cause them to contract very fast and irregularly (this is called fibrillation). As a result, blood pools in the atria and isn’t pumped completely into the heart’s two lower chambers, called the ventricles (VEN-trih-kuls). When this happens, the heart’s upper and lower chambers don’t work together as they should.

Often, people who have AF may not even feel symptoms. However, even when not noticed, AF can lead to an increased risk of stroke. In many patients, particularly when the rhythm is extremely rapid, AF can cause chest pain, heart attack, or heart failure. AF may occur rarely or every now and then, or it may become a persistent or permanent heart rhythm lasting for years.

Understanding the Heart's Electrical System

The heart has an internal electrical system that controls the speed and rhythm of the heartbeat. With each heartbeat, an electrical signal spreads from the top of the heart to the bottom. As it travels, the signal causes the heart to contract and pump blood. The process repeats with each new heartbeat.

Each electrical signal begins in a group of cells called the sinus node, or sinoatrial (SA) node. The SA node is located in the right atrium, which is the upper right chamber of the heart. In a healthy adult heart at rest, the SA node fires off an electrical signal to begin a new heartbeat 60 to 100 times a minute. (This rate may be slower in very fit athletes.)

From the SA node, the electrical signal travels through special pathways to the right and left atria. This causes the atria to contract and pump blood into the heart’s two lower chambers, the ventricles. The electrical signal then moves down to a group of cells called the atrioventricular (AV) node, located between the atria and the ventricles. Here, the signal slows down just a little, allowing the ventricles time to finish filling with blood.

The electrical signal then leaves the AV node and travels along a pathway called the bundle of His. This pathway divides into a right bundle branch and a left bundle branch. The signal goes down these branches to the ventricles, causing them to contract and pump blood out to the lungs and the rest of the body. The ventricles then relax, and the heartbeat process starts all over again in the SA node.

For more information, see the Diseases and Conditions Index article on How the Heart Works, which contains an animation that shows how the heart's electrical system causes the heart to pump blood.

Understanding the Electrical Problem in Atrial Fibrillation

In AF, the heart’s electrical signal begins in a different part of the atria or the nearby pulmonary veins and is conducted abnormally. The signal doesn’t travel through normal pathways, but may spread throughout the atria in a rapid, disorganized way. This can cause the atria to beat more than 300 times a minute in a chaotic fashion. The atria’s rapid, irregular, and uncoordinated beating is called fibrillation.

The abnormal signal from the SA node floods the AV node with electrical impulses. As a result, the ventricles also begin to beat very fast. However, the AV node can’t conduct the signals to the ventricles as fast as they arrive, so even though the ventricles may be beating faster than normal, they aren’t beating as fast as the atria. The atria and ventricles no longer beat in a coordinated fashion, creating a fast and irregular heart rhythm. In AF, the ventricles may beat up to 100–175 times a minute, in contrast to the normal rate of 60–100 beats a minute.

When this happens, blood isn’t pumped into the ventricles as well as it should be, and the amount of blood pumped out of the ventricles is based on the randomness of the atrial beats. In AF, instead of the body receiving a constant, regular amount of blood from the ventricles, it receives rapid, small amounts and occasional random, larger amounts, depending on how much blood has flowed from the atria to the ventricles with each beat.

Most of the symptoms of AF are related to how fast the heart is beating. If medicines or age slow the heart rate, the effect of the irregular beats is minimized.

AF may be brief, with symptoms that come and go and end on their own, or it may be persistent and require treatment. Or, AF can be permanent, in which case medicines or other interventions can’t restore a normal rhythm.

The animation below shows atrial fibrillation. Click the "start" button to play the animation. Written and spoken explanations are provided with each frame. Use the buttons in the lower right corner to pause, restart, or replay the animation, or use the scroll bar below the buttons to move through the frames.

The animation shows how the hearts electrical signal begins in a different place in the heart, causing the atria to beat very fast and irregularly.

The animation shows how the heart’s electrical signal begins in a different place in the heart, causing the atria to beat very fast and irregularly.

Outlook

People who have AF can live normal, active lives. For some people, treatment can cure AF and return their heartbeat to a normal rhythm. For people who have permanent AF, treatment can successfully control symptoms and prevent complications. Treatment consists primarily of different kinds of medicines or nonsurgical procedures.

How the Heart Works

The heart is a muscle about the size of your fist. The heart works like a pump and beats about 100,000 times a day.

The heart has two sides, separated by an inner wall called the septum. The right side of the heart pumps blood to the lungs to pick up oxygen. Then, oxygen-rich blood returns from the lungs to the left side of the heart, and the left side pumps it to the body.

The heart has four chambers and four valves and is connected to various blood vessels. Veins are the blood vessels that carry blood from the body to the heart. Arteries are the blood vessels that carry blood away from the heart to the body.

A Healthy Heart Cross-Section

Illustration of the anatomy of the heart


The illustration shows a cross-section of a healthy heart and its inside structures. The blue arrow shows the direction in which oxygen-poor blood flows from the body to the lungs. The red arrow shows the direction in which oxygen-rich blood flows from the lungs to the rest of the body.

Heart Chambers

The heart has four chambers or "rooms."

  • The atria are the two upper chambers that collect blood as it comes into the heart.
  • The ventricles are the two lower chambers that pump blood out of the heart to the lungs or other parts of the body.

Heart Valves

Four valves control the flow of blood from the atria to the ventricles and from the ventricles into the two large arteries connected to the heart.

  • The tricuspid (tri-CUSS-pid) valve is in the right side of the heart, between the right atrium and the right ventricle.
  • The pulmonary (PULL-mun-ary) valve is in the right side of the heart, between the right ventricle and the entrance to the pulmonary artery, which carries blood to the lungs.
  • The mitral (MI-trul) valve is in the left side of the heart, between the left atrium and the left ventricle.
  • The aortic (ay-OR-tik) valve is in the left side of the heart, between the left ventricle and the entrance to the aorta, the artery that carries blood to the body.

Valves are like doors that open and close. They open to allow blood to flow through to the next chamber or to one of the arteries, and then they shut to keep blood from flowing backward.

When the heart's valves open and close, they make a "lub-DUB" sound that a doctor can hear using a stethoscope.

  • The first sound—the “lub”—is made by the mitral and tricuspid valves closing at the beginning of systole (SIS-toe-lee). Systole is when the ventricles contract, or squeeze, and pump blood out of the heart.
  • The second sound—the “DUB”—is made by the aortic and pulmonary valves closing at beginning of diastole (di-AS-toe-lee). Diastole is when the ventricles relax and fill with blood pumped into them by the atria.

Arteries

The arteries are major blood vessels connected to your heart.

  • The pulmonary artery carries blood pumped from the right side of the heart to the lungs to pick up a fresh supply of oxygen.
  • The aorta is the main artery that carries oxygen-rich blood pumped from the left side of the heart out to the body.
  • The coronary arteries are the other important arteries attached to the heart. They carry oxygen-rich blood from the aorta to the heart muscle, which must have its own blood supply to function.

Veins

The veins are also major blood vessels connected to your heart.

  • The pulmonary veins carry oxygen-rich blood from the lungs to the left side of the heart so it can be pumped out to the body. The part of the pulmonary veins that connects to the left atrium has recently been found to often be the source of the abnormal electrical signals that can begin AF.
  • The vena cava is a large vein that carries oxygen-poor blood from the body back to the heart.

For more information on how a healthy heart works, see the Diseases and Conditions Index article on How the Heart Works. This article contains animations that show how your heart pumps blood and how your heart’s electrical system works.

Types of Atrial Fibrillation

Paroxysmal Atrial Fibrillation

In paroxysmal (par-ok-SIZ-mal) atrial fibrillation (AF), the abnormal electrical signals and rapid heart rate begin suddenly and then stop on their own. Symptoms can be mild or severe and last for seconds, minutes, hours, or days.

Persistent Atrial Fibrillation

Persistent AF is a condition in which the abnormal heart rhythm continues until it’s stopped with treatment.

Permanent Atrial Fibrillation

Permanent AF is a condition in which the normal heart rhythm can’t be restored with the usual treatments. Both paroxysmal and persistent atrial fibrillation may become more frequent and eventually result in permanent AF.

What Causes Atrial Fibrillation?

Atrial fibrillation (AF) occurs when the electrical signals traveling through the heart are conducted abnormally and become disorganized and very rapid.

This is the result of damage to the heart’s electrical system. This damage is most often the result of other conditions, such as coronary artery disease or high blood pressure, that affect the health of the heart. Sometimes, the cause of AF is unknown.

Who Is At Risk for Atrial Fibrillation?

Populations Affected

More than 2 million people in the United States have atrial fibrillation (AF), and it affects both men and women. AF generally occurs in older people, mostly because they’re more likely to have heart disease or conditions that increase the risk of AF. AF is uncommon among young people.

Major Risk Factors

AF is more common in people with heart diseases or conditions, including:

  • Coronary artery disease
  • Heart failure
  • Rheumatic heart disease
  • Structural defects, such as mitral valve disorders
  • Pericarditis (inflammation of the tissues surrounding the heart)
  • Congenital heart defects
  • Sick sinus syndrome (a condition in which the heart's electrical signals don't fire properly and the heart rate slows down; sometimes the heart will switch back and forth between a too-slow rate and a too-fast rate)

AF also is more common in people who are having a heart attack or who have just had surgery.

Other conditions that increase AF risk include hyperthyroidism, obesity, high blood pressure (hypertension), diabetes, and lung diseases.

Recent evidence suggests that patients who receive high-dose steroid therapy are at increased risk of AF. This therapy, which is commonly used for asthma and certain inflammatory conditions, may act as a trigger in people who already have other risk factors for AF.

What Are the Signs and Symptoms of Atrial Fibrillation?

Signs and Symptoms

Atrial fibrillation (AF) usually causes the ventricles to contract faster than normal. When this happens, the ventricles don’t have enough time to fill completely with blood to pump to the lungs and body. This inefficient pumping can cause signs and symptoms, such as:

  • Palpitations (a strong feeling of a fast heartbeat or a “thumping” in the chest)
  • Shortness of breath
  • Weakness or difficulty exercising
  • Chest pain
  • Dizziness or fainting
  • Fatigue (tiredness)
  • Confusion

Complications

AF has two major complications—stroke and heart failure. Heart attack is another, rarer complication.

Stroke

During AF, the atria don’t pump all of their blood to the ventricles. Some blood pools in the atria. When this happens, a blood clot (also called a thrombus) can form. If the clot breaks off and travels to the brain, it can cause a stroke. (A clot that forms in one part of the body and travels in the bloodstream to another part of the body is called an embolus.)

Blood-thinning medicines to reduce the risk of stroke are a very important part of treatment for patients who have AF.

Atrial Fibrillation and Stroke

Illustration of how a stroke can occur during atrial fibrillation.

The illustration shows how a stroke can occur during atrial fibrillation. If a clot (thrombus) forms in the left atrium of the heart, a piece of it can dislodge and travel to an artery in the brain, blocking blood flow through the artery. The lack of blood flow to the portion of the brain fed by the artery causes a stroke.

Heart Failure

Heart failure occurs when the heart can’t pump enough blood to meet the body’s needs. Because the ventricles are beating very fast and aren’t able to properly fill with blood to pump out to the body, AF can lead to heart failure.

Fatigue and shortness of breath are common symptoms of heart failure. A buildup of fluid in the lungs causes these symptoms. Fluid also can build up in the feet, ankles, and legs, causing weight gain.

Lifestyle changes, medicines, and sometimes special care (rarely, a mechanical heart pump or heart transplant) are the main treatments for heart failure.

How Is Atrial Fibrillation Diagnosed?

Sometimes people have atrial fibrillation (AF), but don't have symptoms. For these people, AF is often found during a physical exam or EKG (electrocardiogram) test done for another purpose. Other times, AF is diagnosed after a person goes to the doctor because of symptoms.

To understand why a person has AF and the best way to treat it, the doctor will want to discover any immediate or underlying causes. Doctors use several methods to diagnose AF, including family and medical history, a physical exam, and several diagnostic tests and procedures.

Specialists Involved

A primary care doctor often is involved in the initial diagnosis and treatment of AF. These doctors can include:

  • Family practitioners
  • Internists

Doctors who specialize in the diagnosis and treatment of heart disease also may be involved, such as:

  • Cardiologists (doctors who take care of adults with heart problems)
  • Electrophysiologists (e-LEK-tro-fiz-e-OL-o-jists; cardiologists who specialize in arrhythmias)

Family and Medical History

The doctor will ask questions about:

  • Symptoms. What symptoms are you having? Have you had palpitations (a feeling of a strong or fast heartbeat)? Are you dizzy or short of breath? Are your feet or ankles swollen (a possible sign of heart failure)? Do you have any chest pain?
  • Medical history. This includes other health problems, such as a history of heart disease, high blood pressure, lung disease, diabetes, or thyroid problems.
  • Family medical history. Does anyone in your family have a history of AF? Has anyone in your family ever had heart disease or high blood pressure? Has anyone had thyroid problems? Are there other illnesses or health problems in your family?
  • Health habits. These include smoking and alcohol or caffeine use.

Physical Exam

The doctor will do a complete cardiac exam, listening to the rate and rhythm of your heartbeat and taking your pulse and blood pressure reading. The doctor will likely check to see whether you have any sign of problems with your heart muscle or valves. He or she will listen to your lungs to check for signs of heart failure.

The doctor also will check for swelling in the legs or feet and look for an enlarged thyroid gland or other signs of hyperthyroidism.

Diagnostic Tests and Procedures

EKG

An EKG is a simple test that detects and records the electrical activity of your heart. It is the most useful test for diagnosing AF. It shows how fast the heart is beating and its rhythm (steady or irregular). It also records the timing of the electrical signals as they pass through each part of the heart.

A standard EKG test only records the heartbeat for a few seconds. It won’t detect an AF episode that doesn’t happen during the test. To diagnose paroxysmal AF, the doctor may ask you to wear a portable EKG monitor that can record your heartbeat for longer periods. The two most common types of portable EKGs are Holter and event monitors.

Holter Monitor

Also called an ambulatory EKG, this device records the electrical signals of the heart for a full 24- or 48-hour period. You wear small patches called electrodes on your chest that are connected by wires to a small, portable recorder. The recorder can be clipped to a belt, kept in a pocket, or hung around your neck.

During the time you’re wearing a Holter monitor, you do your usual daily activities and keep a notebook, noting any symptoms you have and the time they occurred. You then return both the recorder and the notebook to the doctor to read the results. The doctor can see how your heart was beating at the time you had symptoms.

Event Monitor

Event monitors are useful to diagnose AF that occurs only once in a while. The device is worn continuously, but only records the heart’s electrical activity when you push a button. You push the button on the device when you feel symptoms. Event monitors can be worn for 1 to 2 months, or as long as it takes to get a recording of the heart when symptoms are occurring.

Other Tests Used to Diagnose Atrial Fibrillation

Echocardiogram

This test uses sound waves to create a moving picture of your heart. An echocardiogram provides information about the size and shape of your heart and how well your heart chambers and valves are functioning. The test also can identify areas of poor blood flow to the heart, areas of heart muscle that aren’t contracting normally, and previous injury to the heart muscle caused by poor blood flow.

This test is sometimes called a transthoracic echocardiogram. It’s noninvasive and is done by placing an echo “probe” on your chest wall. The procedure is the same technique used for obtaining sonograms in pregnant women.

Transesophageal Echocardiogram

A transesophageal (trans-e-SOF-ah-ge-al) echocardiogram, or TEE, takes pictures of the heart through your esophagus (the tube leading from your mouth to your stomach). The atria are deep in the chest and often can’t be seen very well on a regular echocardiogram. A doctor can see the atria much better with a TEE. In this test, the transducer is attached to the end of a flexible tube that’s guided down your throat and into your esophagus. TEE is usually done while the patient under some sedation. TEE is used to detect clots that may be developing in the atria because of AF.

Blood Tests

These tests check the level of thyroid hormone and the balance of your body’s electrolytes. Electrolytes are minerals in your blood and body fluids that are essential for normal health and functioning of your body’s cells and organs.

How Is Atrial Fibrillation Treated?

Treatment for atrial fibrillation (AF) depends on how severe or frequent the symptoms are and whether you already have heart disease. General treatment options include medicines, medical procedures, and lifestyle changes.

Goals of Treatment

Treatment of AF is designed to:

  • Prevent blood clots from forming, and thereby reduce the risk for stroke.
  • Control how many times a minute the ventricles contract. This is called rate control. Rate control is important because it allows the ventricles enough time to completely fill with blood. With this approach, the irregular heart rhythm continues, but the person feels better and has fewer symptoms.
  • Restore the heart to a normal rhythm. This is called rhythm control. Rhythm control allows the atria and ventricles to work together again to efficiently pump blood to the body.
  • Treat any underlying disorder that’s causing or raising the risk of AF—for example, hyperthyroidism.

Who Needs Treatment for Atrial Fibrillation?

People with no symptoms and no related heart problems may not need treatment. AF may even go back to a permanent normal heart rhythm on its own. In some people who have AF for the first time, doctors may choose to use an electrical procedure or medicine to restore the heart rhythm to normal.

Repeated episodes of AF tend to cause changes to the electrical system of the heart, leading to persistent or permanent AF. Most people with persistent or permanent AF need treatment to control their heart rate and prevent complications.

Specific Types of Treatment

Blood Clot Prevention

The risk of a blood clot traveling from the heart to the brain and causing a stroke is increased in people who have AF. Preventing the formation of blood clots is probably the most important part of treating AF. Doctors prescribe blood-thinning medicines to prevent blood clots. These medicines include warfarin (Coumadin®), heparin, and aspirin.

Warfarin is the most effective medicine in people with risk factors for stroke. People taking warfarin must have regular blood tests to check how well the medicine is working.

Rate Control

Doctors also prescribe medicines to slow down the rate at which the ventricles are beating. These medicines help bring the heart rate to a normal level.

Rate control is the recommended strategy for most patients with AF, even though the heart rhythm continues to be abnormal and the heart doesn’t work as efficiently as it could. Most people feel better and can function well if their heart rate is well controlled.

Medicines used to control the heart rate include beta blockers (for example, metoprolol and atenolol), calcium channel blockers (diltiazem and verapamil), and digitalis (digoxin). Several other medicines also are available.

Rhythm Control

Doctors use medicines or procedures to restore and maintain the heart’s rhythm. This treatment approach is recommended for people who aren’t functioning well with rate control treatment or who have only recently started having AF.

The longer you have AF, the less likely it is that an abnormal heart rhythm can be restored to a normal heart rhythm. This is especially true for people who have had AF for 6 months or more.

Restoring a normal rhythm also becomes less likely if the atria become enlarged or if any underlying heart disease becomes more severe. In these situations, the chance that AF will recur is high, even if you’re taking a medicine to help convert AF to a normal rhythm.

Medicines. Medicines used to control a person’s heart rhythm include amiodarone, sotalol, flecainide, propafenone, dofetilide, ibutilide, and occasionally older medicines such as quinidine, procainamide, and disopyramide.

Medicines must be carefully tailored to the person taking them because they can cause a different kind of irregular, slow, or rapid heartbeat (arrhythmia) or can be harmful in people who have underlying diseases of the heart or other organs. This is particularly true for those patients who have an unusual heart rhythm problem called Wolff-Parkinson-White syndrome.

To convert AF to a normal heart rhythm, people can be given AF medicines regularly by injection at a doctor’s office, clinic, or hospital. Or, to try to control AF or prevent recurrences, people may take pills on an ongoing basis. If the doctor knows how a person will react to a medicine, a specific dose may be prescribed according to the “pill in the pocket” technique. This means that a patient takes a specific dose of a medicine as needed only if he or she has an episode of AF, but not on a regular, daily basis.

Procedures. Doctors use several procedures to restore a normal heart rhythm, including:

  • Electrical cardioversion, which is a jolt of electricity delivered to the heart to "convert" the rhythm from AF back to a normal heart rhythm. This shock can break the pattern of abnormal electrical signals and restore a normal rhythm. Electrical cardioversion isn’t the same as the emergency heart shocking procedure often seen on TV programs. It’s planned in advance and done under carefully controlled conditions with the person heavily sedated.
  • Before doing electrical cardioversion, the doctor may recommend a transesophageal echocardiogram (TEE) to rule out the presence of blood clots in the atria. If clots are present, the patient may need to receive blood-thinning medicines to help eliminate the clots before the electrical cardioversion.
  • Radiofrequency ablation, which is used to restore a normal heart rhythm when medicines or electrical cardioversion don’t work. In this procedure, a wire is inserted through a vein in the leg or arm and threaded to the heart. Radiowave energy is sent through the wire to destroy abnormal tissue that’s believed to be disrupting the normal flow of electrical signals. This procedure is usually done in the hospital and is performed by an electrophysiologist.
  • Maze procedure, in which a surgeon makes small cuts or burns in the atria to reduce the chances of chaotic electrical activity happening in the atria. This procedure requires open-heart surgery, so it’s usually performed when a person requires heart surgery for other reasons, such as for valve disease, which can increase the risk of AF.

Approaches To Treating Underlying Causes and Reducing Risk Factors

The doctor also may suggest other approaches designed to treat the underlying condition that may be causing AF or to reduce risk factors for AF. These approaches include prescribing medicines to treat an overactive thyroid, reduce blood pressure and overweight, or treat other underlying causes of AF.

The doctor also may recommended lifestyle changes, such as reducing stress, quitting smoking, reducing salt intake (to help lower blood pressure), and eating healthily. Limiting or avoiding stress as well as alcohol, caffeine, or other stimulants that may increase your heart rate also may help to reduce the risk of AF.

How Can Atrial Fibrillation Be Prevented?

You may be able to prevent atrial fibrillation (AF) by leading a healthy lifestyle and taking steps to lower your risk for heart disease. These steps include:

  • Not smoking
  • Following a heart healthy diet that is low in saturated fat, trans fat, and cholesterol and that includes a variety of grains, fruits, and vegetables daily
  • Getting regular physical activity
  • Maintaining a healthy weight

If you have heart disease or risk factors, you should work with your doctor to control your condition and lower your risk of complications, such as AF. In addition to following the healthy lifestyle steps above, which also can help control heart disease, your doctor may advise you to to take one or more of the following steps:

  • Follow the DASH eating plan to help lower your blood pressure.
  • Keep your cholesterol (total cholesterol, high-density lipoprotein (HDL), and low-density lipoprotein (LDL)) and triglycerides at healthy levels with dietary changes and/or medicines.
  • Limit or avoid alcohol.
  • Control blood glucose (blood sugar) levels if you have diabetes.
  • Get regular checkups.
  • Take medicines as directed.

The National Heart, Lung, and Blood Institute's "Your Guide to Lowering High Blood Pressure" Web pages have a prevention section that provides information and links on heart healthy eating.

Living With Atrial Fibrillation

People who have atrial fibrillation (AF)—even permanent AF—can live normal, active lives.

If you have AF, you should:

  • Keep all your medical appointments.
  • Bring all the medicines you’re taking to every doctor and emergency room visit. This will help your doctor know exactly what medicines you’re taking.
  • Follow your doctor’s instructions for taking medicines. Be careful about taking over-the-counter medicines, nutritional supplements, or cold and allergy medicines, because some contain stimulants that can trigger rapid heart rhythms. Some over-the-counter medicines can have harmful interactions with heart rhythm medicines.
  • Tell your doctor if you’re having side effects from your medicines, if your symptoms are getting worse, or if you have new symptoms.
  • If you’re taking blood-thinning medicines, you will need to be monitored carefully, including getting regular blood tests to check how the medicines are working. Talk with your doctor about your monitoring program.
  • Talk with your doctor about diet, physical activity, weight control, and alcohol use.

Key Points

  • Atrial fibrillation (AF) is one type of arrhythmia. An arrhythmia is a problem with the speed or rhythm of the heartbeat.
  • A disorder in the heart’s electrical system causes AF and other types of arrhythmia.
  • AF occurs when rapid, disorganized electrical signals in the atria cause them to fibrillate (contract in a very fast and irregular way). When this happens, the heart’s upper and lower chambers don’t work together as they should.
  • Often, people who have AF may not even feel symptoms. However, even when not noticed, AF can lead to an increased risk of stroke. In many patients, particularly when the rhythm is rapid, AF can cause chest pain, heart attack, or heart failure.
  • The three types of AF are paroxysmal (the AF comes and goes), persistent (the AF continues until stopped with treatment), and permanent (a normal heart rhythm can’t be restored).
  • Certain conditions, such as problems with the heart's structure or conditions that damage the heart's valves, can lead to AF. Other conditions, such as obesity and high blood pressure, make it more likely that an episode of AF may happen.
  • More than 2 million people in the United States have AF. It's more common in older people, and it affects both men and women.
  • Signs and symptoms of AF include palpitations, shortness of breath, weakness or difficulty exercising, chest pain, dizziness or fainting, fatigue (tiredness), or confusion.
  • AF has two major complications—stroke (caused when blood clots form in the atria and break off and travel to the brain) and heart failure (caused by the heart’s inability to efficiently pump blood to the rest of the body). Heart attack is another, rarer complication.
  • Doctors diagnose AF using family and medical history, a physical exam, and diagnostic tests and procedures. AF can be specifically diagnosed only by EKG recordings.
  • AF treatments, which include medicines and procedures, are designed to prevent blood clots from forming, restore normal the heart rate or rhythm, and treat underlying conditions that cause or raise the risk of AF.
  • People who have AF can live normal, active lives. For some people, treatment can cure AF and return their heart to its normal rhythm. For people with permanent AF, treatment can successfully control symptoms and prevent complications.
Source : http://www.nhlbi.nih.gov/health/dci/Diseases/af/af_summary.html

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