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Acute Coronary Syndrome – Risks, Causes, and Symptoms

Overview

Acute coronary syndrome is a term used to describe a range of conditions associated with sudden, reduced blood flow to the heart. One such condition is a heart attack (myocardial infarction) — when cell death results in damaged or destroyed heart tissue. Even when acute coronary syndrome causes no cell death, the reduced blood flow changes how your heart works and is a sign of a high risk of heart attack. Acute coronary syndrome often causes severe chest pain or discomfort. It is a medical emergency that requires prompt diagnosis and care. The goals of treatment include improving blood flow, treating complications and preventing future problems.

What types of heart conditions does ACS include?

Acute coronary syndrome involves three types of coronary artery disease that damage or destroy heart tissue. The specific type depends on:

Types of ACS are:

Pathophysiology of Acute Coronary Syndromes

Initial consequences vary with size, location, and duration of obstruction and range from transient ischemia to infarction. Measurement of newer, more sensitive markers indicates that some cell necrosis probably occurs even in mild forms; thus, ischemic events occur on a continuum, and classification into subgroups, although useful, is somewhat arbitrary. Sequelae of the acute event depend primarily on the mass and type of cardiac tissue infarcted.

Myocardial dysfunction

Ischemic (but not infarcted) tissue has impaired contractility and relaxation, resulting in hypokinetic or akinetic segments; these segments may expand or bulge during systole (called paradoxical motion). The size of the affected area determines effects, which range from minimal to mild heart failure to cardiogenic shock; usually, large parts of myocardium must be ischemic to cause significant myocardial dysfunction. Some degree of heart failure occurs in about two thirds of hospitalized patients with acute myocardial infarction. It is termed ischemic cardiomyopathy if low cardiac output and heart failure persist. Ischemia involving the papillary muscle may lead to mitral valve regurgitation. Dysfunctional wall motion can allow mural thrombus formation.

Myocardial infarction (MI)

Myocardial infarction is myocardial necrosis resulting from abrupt reduction in coronary blood flow to part of the myocardium. Infarcted tissue is permanently dysfunctional; however, there is a zone of potentially reversible ischemia adjacent to infarcted tissue. MI affects predominantly the left ventricle (LV), but damage may extend into the right ventricle (RV) or the atria.

Infarction may be

Transmural: Transmural infarcts involve the whole thickness of myocardium from epicardium to endocardium and are usually characterized by abnormal Q waves on ECG.

Nontransmural (subendocardial): Nontransmural infarcts do not extend through the ventricular wall and cause only ST-segment and T-wave (ST-T) abnormalities.

Because the transmural depth of necrosis cannot be precisely determined clinically, infarcts are usually classified as STEMI or NSTEMI by the presence or absence of ST-segment elevation or Q waves on the ECG.

Necrosis of a significant portion of the interventricular septum or ventricular wall may rupture, with dire consequences. A ventricular aneurysm or pseudoaneurysm may form.

Electrical dysfunction

Electrical dysfunction can be significant in any form of acute coronary syndrome. Ischemic and necrotic cells are incapable of normal electrical activity, resulting in various ECG changes (predominantly ST-T abnormalities), arrhythmias, and conduction disturbances. ST-T abnormalities of ischemia include ST-segment depression (often downsloping from the J point), T-wave inversion, ST-segment elevation (often referred to as injury current), and peaked T waves in the hyperacute phase of infarction. Conduction disturbances can reflect damage to the sinus node, the atrioventricular (AV) node, or specialized conduction tissues. Most changes are transient; some are permanent.

Causes

A fatty substance called plaque can build up in the arteries that bring oxygen-rich blood to your heart. Plaque is made up of cholesterol, fat, cells, and other substances.

Plaque can block blood flow in two ways:

Risk factors of Acute Coronary Syndrome

There are certain risk factors associated with acute coronary syndrome that people should be aware of. Risk factors include:

What are the symptoms?

Chest pain or discomfort may immediately signal that something’s wrong with your heart. But other symptoms may leave you unsure of what’s wrong. Take note of these common signs of an acute coronary syndrome:

Take these symptoms seriously. If you experience chest pain or other symptoms, don’t hesitate to call your physician immediately.

Chest pain caused by acute coronary syndromes can come on suddenly, as is the case with a heart attack. Other times, the pain can be unpredictable or get worse even with rest – both hallmark symptoms of unstable angina. People who experience chronic chest pain resulting from decreased blood flow to the heart due to years of cholesterol buildup in their arteries can develop an acute coronary syndrome if a blood clot forms on top of the plaque buildup.

Possible Complications of Acute Coronary Syndrome

In some cases, ACS can lead to other health problems including:

Exams and Tests

Your health care provider will do an exam, listen to your chest with a stethoscope, and ask about your medical history.

Tests for ACS include:

Coronary angiography may be done right away or when you are more stable. This test:

Other tests to look at your heart that may be done while you are in the hospital include:

How is Acute Coronary Syndrome Treated?

The treatment focus for ACS is determining the underlying cause of the symptoms and ending the medical emergency. This means increasing blood flow to the heart, which should also reduce the pain associated with blockage. These steps may include:

Surgery

Medications

It is possible to reduce your risk of developing an ACS condition by:

Prevention of Acute Coronary Syndrome

There is a lot you can do to help prevent ACS.

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