Angina Symptoms (cont.)
John P. Cunha, DO, FACOEP
John P. Cunha, DO, is a U.S. board-certified Emergency Medicine Physician. Dr. Cunha's educational background includes a BS in Biology from Rutgers, the State University of New Jersey, and a DO from the Kansas City University of Medicine and Biosciences in Kansas City, MO. He completed residency training in Emergency Medicine at Newark Beth Israel Medical Center in Newark, New Jersey.
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.
William C. Shiel Jr., MD, FACP, FACR
Dr. Shiel received a Bachelor of Science degree with honors from the University of Notre Dame. There he was involved in research in radiation biology and received the Huisking Scholarship. After graduating from St. Louis University School of Medicine, he completed his Internal Medicine residency and Rheumatology fellowship at the University of California, Irvine. He is board-certified in Internal Medicine and Rheumatology.
In this Article
- What is angina?
- What causes angina?
- What are the different types of angina?
- What are the signs and symptoms of angina?
- How is angina diagnosed?
- What is the treatment for angina?
- What is the prognosis for angina?
- Can angina be prevented?
- Find a local Cardiologist in your town
What causes angina?
The heart gets its blood supply from coronary arteries that branch off the aorta just as it leaves the heart. The coronaries run along the surface of the heart, branching into smaller and smaller blood vessels as they supple each muscle cell of the heart. The most common reason a patient complains of angina is because of narrowed coronary arteries caused by atherosclerotic heart disease (ASHD).
Cholesterol plaque gradually builds on the inner lining of a coronary artery, narrowing its diameter and decreasing the amount of blood that can flow past the blockage. If the heart is asked to do more work and pump harder and faster, enough oxygen may not be able to be delivered beyond the blockage to meet the energy demand of the myocardium and this can cause failure of heart cells to function and symptoms of angina occur.
If the plaque ruptures, a clot forms that completely occludes the artery and prevents any blood to the section of the heart muscle that the artery supplies. This is called a heart attack or myocardial infarction and is a medical emergency.
Because each beat of the heart not only sends blood to the body, but also to itself, there are a variety of systems in the body and within the heart that have to function normally to deliver oxygen to the heart muscle. Should any of them, either individually or in combination, fail to perform adequately, angina may occur. Examples include the following:
- The electrical system of the heart needs to be functional generating a heartbeat that is neither too slow (bradycardia) nor too fast (tachycardia). There may be an intrinsic problem with the heart's electrical conducting system. Atrial fibrillation with rapid ventricular response, atrial flutter, and ventricular tachycardia are too fast rates that can be associated with chest pain, shortness of breath, and other angina symptoms. Complete heart block can make the heart beat too slow. The abnormal heart rhythm may be due to electrolyte or hormone abnormalities, medications, or toxic ingestions (for example cocaine overdose).
- Heart valves need to allow blood to flow within and out of the heart in the right direction and at the right speed. This is especially true of the aortic valve that controls blood leaving the heart into the aorta. Severe aortic stenosis or narrowing of the aortic valve, may not allow enough blood to leave the heart with each heartbeat to provide blood flow into the coronary arteries.
- The heart muscle has to be able to have an adequate squeeze or strength to pump blood. The lack of this ability may be due to cardiomyopathy (damaged heart muscle).
- There needs to be enough red blood cells in the bloodstream to carry oxygen. Patients who have anemia can develop shortness of breath, fatigue, and chest pain with activity.
- The lungs need to work so that they deliver enough oxygen to the body. Patients with COPD or emphysema may not be able to extract enough oxygen from the air to supply the body's needs. Most often these patients have shortness of breath but they may also develop angina.
- Certain poisonings including carbon monoxide can prevent oxygen from attaching to red blood cells and cause shortness of breath and chest pain.
If any of these steps fail, the heart muscle may not get enough oxygen and the patient may feel pain or discomfort called angina.
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