Chest Pain (cont.)
Benjamin Wedro, MD, FACEP, FAAEM
Dr. Ben Wedro practices emergency medicine at Gundersen Clinic, a regional trauma center in La Crosse, Wisconsin. His background includes undergraduate and medical studies at the University of Alberta, a Family Practice internship at Queen's University in Kingston, Ontario and residency training in Emergency Medicine at the University of Oklahoma Health Sciences Center.
Daniel Lee Kulick, MD, FACC, FSCAI
Dr. Kulick received his undergraduate and medical degrees from the University of Southern California, School of Medicine. He performed his residency in internal medicine at the Harbor-University of California Los Angeles Medical Center and a fellowship in the section of cardiology at the Los Angeles County-University of Southern California Medical Center. He is board certified in Internal Medicine and Cardiology.
Melissa Conrad Stöppler, MD
Melissa Conrad Stöppler, MD, is a U.S. board-certified Anatomic Pathologist with subspecialty training in the fields of Experimental and Molecular Pathology. Dr. Stöppler's educational background includes a BA with Highest Distinction from the University of Virginia and an MD from the University of North Carolina. She completed residency training in Anatomic Pathology at Georgetown University followed by subspecialty fellowship training in molecular diagnostics and experimental pathology.
In this Article
- Chest pain facts
- Chest pain introduction
- What are the sources of chest pain?
- What are the causes of chest pain?
- How is chest pain diagnosed?
- What is the philosophy of the approach to chest pain diagnosis?
- What is the diagnosis and treatment for chest pain?
- Broken or bruised ribs
- Pleuritis or pleurisy
- Pulmonary embolism
- Angina and heart attack (myocardial infarction)
- Aorta and aortic dissection
- Esophagus and reflux esophagitis
- Referred abdominal pain
- Chest Pain Quiz
- Chest Pain Quiz
- Find a local Doctor in your town
Angina and heart attack (myocardial infarction)
The worry for patients and health care professionals is that any chest pain may originate from the heart. Angina is the term given to pain that occurs because the coronary arteries (blood vessels to the heart muscle) narrow and decrease the amount of oxygen that can be delivered to the heart itself. This can cause the classic symptoms of chest pressure or tightness with radiation to the arm or jaw associated with shortness of breath and sweating.
Unfortunately, many people don't present with classic symptoms, and the pain may be difficult to describe -- or in some people may not even be present. Instead of angina or typical chest pressure, their anginal equivalent (symptom they get instead of chest pain) may be indigestion, shortness of breath, weakness, dizzyness, and malaise. Women and the elderly are at higher risk for having an atypical presentation of heart pain.
The narrowing of blood vessels or atherosclerosis is due to plaque buildup. Plaque is a soft amalgam of cholesterol and calcium that forms along the inside lining of the blood vessel and gradually decreases the diameter of the blood vessel and restricts the flow of blood. If the plaque ruptures, it can cause a blood clot to form and completely block the vessel.
When a coronary artery completely occludes (becomes blocked), the muscle it supplies blood to is at risk of dying. This is a heart attack or myocardial infarction. In most circumstances, this pain is more intense than routine angina, but again, there are many variations in signs and symptoms.
The diagnosis of angina is a clinical one. After the health care professional takes a careful history and assesses the potential risk factors, the diagnosis is either reasonably pursued or else it is considered not to be present. If angina is the potential diagnosis, further evaluation may include electrocardiograms (EKG or ECG) and blood tests.
Cardiac enzymes can be measured in the bloodstream when heart muscle is irritated or damaged. Common enzymes to measure include troponin, CPK, and myoglobin. Unfortunately, it takes time for these chemicals to be released into the bloodstream and turn a blood test positive. Interpretation of the test results may require that blood be taken more than once over a period of observation to confirm that they are normal. If these chemicals are not present, it may be reasonable to perform imaging studies of the heart in a variety of ways depending on the patient's past history:
- Stress tests in which the electrocardiogram is monitored during exercise. This can be done by actual exercise or by chemically stimulating the heart with injected medications. The stress test may be performed in association with an echocardiogram.
- Echocardiography (ultrasound evaluation) of heart structure and function
- Computerized cardiac angiography in which the CT scan can image the heart's blood vessels
- Coronary catheterization, in which tubes are floated through a major blood vessel into the heart and dye is used to directly image heart blood vessels looking for blockage
The purpose of making the diagnosis of angina is to restore normal blood supply to heart muscle before a heart attack occurs and permanent muscle damage results. Aside from minimizing risk factors by controlling blood pressure, cholesterol, and diabetes, and stopping smoking, medications can be used to make the heart beat more efficiently (for example, beta blockers), to dilate blood vessels (for example, nitroglycerin) and to make blood less likely to clot (aspirin).
An acute heart attack (myocardial infarction) is a true emergency, since complete blockage of blood supply will cause part of the heart muscle to die and be replaced by scar tissue. This lessens the ability of the heart to pump blood to meet the body's needs. As well, injured heart muscle is irritable and can cause electrical disturbances like ventricular fibrillation, a condition in which the heart jiggles like Jello and cannot beat in a coordinated fashion. This is the cause of sudden death in heart attack. The cause of an acute heart attack is the rupture of a cholesterol plaque in a coronary artery. This causes a blood clot to form and occlude the artery.
The treatment for heart attack is emergent restoration of blood supply. Two options include use of a drug like TPA or TNK to dissolve the blood clot (thrombolytic therapy) or emergency heart catheterization and using a balloon to open up the blocked area (angioplasty) and keeping it open with a mesh cage called a stent. Emergent angioplasty is preferred if the patient lives close to a hospital with that capability but many people do not. Staged treated with intial thombolytic therapy followed by angioplasty is also reasonable.
Coronary artery bypass surgery is considered when there is diffuse artery disease that is not amenable to angioplasty and stenting.
For more, please read the Angina and Heart Attack articles.
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