BOLT FROM THE BLUE

It is responsible for half of all heart disease deaths. It is a catastrophic presentation in a variety of cardiac diseases and on some occasions, happens without an obvious structural heart disease.

Heart attack is the result of a sudden blockage of an artery supplying blood to the heart muscle leading to muscle damage, pump failure and its consequences. Sudden cardiac death occurs due to electrical system malfunctioning of the heart 8212; leading to complete cessation of heartbeat or a chaotic beating, which is not compatible with life.

If the heart is compared to a house, a heart attack can be put down to a plumbing problem. Sudden Cardiac Death can be due to an electrical problem.

The most common cause of cardiac arrest is a heart rhythm disorder or arrhythmia called ventricular fibrillation.

The heart has a built-in electrical system. In a healthy heart, a 8220;pace-maker8221; triggers the heartbeat, then electrical impulses run along pathways in the heart, causing it to contract in a regular, rhythmic way. When a contraction happens, blood is pumped. But in ventricular fibrillation, the electrical signals that control the pumping of the heart suddenly become rapid and chaotic.

As a result, the lower chambers of the heart, the ventricles, begin to quiver fibrillate instead of contract and they can no longer pump blood from the heart to the rest of the body.

If blood cannot flow to the brain, it becomes starved of oxygen and the person loses consciousness in seconds. Unless an emergency shock is delivered to the heart to restore its regular rhythm, using a machine called a defibrillator, death can occur within minutes. It8217;s estimated that more than 70 per cent of ventricular fibrillation victims die before reaching the hospital.

Who is at risk?

Although this problem is occasionally seen in persons without an underlying heart disease and comes as a bolt from the blue, the truth is that sudden cardiac death is usually not a random event.

Most victims have underlying heart disease or related health problems. They or their families may not have been aware of it.

There are numerous contributors to cardiac arrest, but two of the most important ones are:

1. A previous heart attack: 75 per cent of people who die of SCD show signs of a previous heart attack.

2. Coronary Artery Disease: 80 per cent of victims have signs of coronary artery disease. This is a condition in which arteries that supply blood to the heart are narrowed or blocked.

There are a number of signs and symptoms that should warn the individual regarding the possibility of a risk of sudden cardiac arrest. These include:

8226; An abnormal heart rate or rhythm arrhythmia of unknown cause

8226; An unusually rapid heart rate tachycardia that comes and goes, even when the person is at rest

8226; Episodes of fainting called syncope of unknown cause

8226; A low ejection fraction EF: The ejection fraction is a measurement of how much blood is pumped by the ventricles with each heartbeat. A healthy heart pumps 55 per cent or more of its blood with each beat. People at highest risk for SCD have ejection fractions of less than 40 per cent, combined with ventricular tachycardia an abnormally fast heart rate in the lower chambers of the heart.

Tests to predict risk

A number of tests that can be performed to determine if someone is in a group that is at high risk for cardiac arrest. These include:

8226; Electrocardiogram: A painless test in which electrodes are attached to the patient8217;s chest to record the electrical activity of the heart in order to identify abnormal heart rhythms. Certain arrhythmias could point to an increased risk of SCD.

8226; Echocardiogram: A painless test in which sound waves are used to create a moving picture of the heart. The test can measure the pumping ability of the heart and identify other problems that may increase a person8217;s risk for SCD.

8226; Holter monitor: A Walkman-size recorder that patients attach to their chest for one to two days, recording a longer sampling of their heart rhythm. After the recorder is removed, the tape is analysed for signs of arrhythmia.

8226; Event recorder: A pager-sized device that also records the electrical activity of the heart over a longer period of time. Unlike a holter monitor, it does not operate continuously. Instead, patients turn on the device whenever they feel their heart beating too quickly or chaotically.

8226; Electrophysiology study: This test is performed at a hospital or clinic. A local anaesthetic is used to numb areas in the groin or neck and thin flexible wires called catheters are snaked up to the heart to record its electrical signals. During the study, the electrophysiologist studies the speed and flow of electrical signals through the heart, identifies rhythm problems and pinpoints areas in the heart that may be the sources of abnormal electrical signals that trigger arrhythmias. The physician can also determine if a patient has had a prior heart attack or evidence of prior heart damage without knowing it. All of this information can help determine if the patient is in a group at higher risk for SCD.

Prevention of Sudden Cardiac Death

There are a number of things people can do to decrease the likelihood of becoming a victim of sudden cardiac death.

To begin with, living a 8220;heart healthy8221; life can help reduce the chances of dying of cardiac arrest or other heart conditions. This includes exercising regularly, eating healthful foods, maintaining a reasonable weight and avoiding smoking. Treating and monitoring diseases and conditions that can contribute to heart problems, including high blood pressure, high cholesterol and diabetes, is also important.

Finally, for some patients, preventing Sudden Cardiac Death means controlling or stopping the abnormal heart rhythms that may trigger ventricular fibrillation. Treating arrhythmias is done in three ways:

8226; Medication: Medications, including ACE inhibitors, beta blockers, calcium channel blockers and other antiarrhythmics, can control abnormal heart rhythms or treat other conditions that may contribute to heart disease or SCD. But medication alone has not proved to be very effective in reducing cardiac arrest. These medications are sometimes taken by patients who also have an ICD, in order to reduce how often it fires.

8226; Implantable cardioverter defibrillators ICDs: These devices have been very successful in preventing SCD in certain high-risk patients. Like a pacemaker, ICDs are implanted under the skin. Wires called leads run from the ICD to the heart and the device monitors the heart to detect any abnormal rhythms. If a dangerous arrhythmia is detected, the ICD delivers an electrical shock to restore the heart8217;s normal rhythm and prevent sudden cardiac death. The ICD can also act like a pacemaker if the heart is beating too slowly.

8226; Catheter Ablation: In this technique, radiofrequency energy heat, cryotherapy freezing, or other energy forms are used to burn small areas of heart muscle that give rise to the abnormal electrical signals that cause rapid or irregular heart rhythms. The energy is delivered through catheters that are snaked through the veins or arteries to the heart. This is a non-surgical procedure. Catheter ablation is sometimes done in patients who have an ICD to decrease the frequency of abnormal heart rhythms.

The author is Director of Cardiology, Escorts Heart Institute, New Delhi

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