Causes and Symptoms (Magill’s Medical Guide, Sixth Edition)
Although varied in origin and effect on the body, heart attacks (or myocardial infarctions) occur when there are interruptions in the delicately synchronized system either supplying blood to the heart or pumping blood from the heart to other vital organs. The heart is a highly specialized muscle whose function is to pump life-sustaining blood to all parts of the body. The heart’s action involves the development of pressure to propel blood through arriving and departing channels—veins and arteries—that must maintain that pressure within their walls at critical levels throughout the system.
The highest level of pressure in the total cardiovascular system is to be found closest to the two “pumping” chambers on the right and left lower sections of the heart, called ventricles. Dark, bluish-colored blood, emptied of its oxygen content and laden with carbon dioxide waste instead of the oxygen in fresh blood, flows into the upper portion of the heart via the superior and inferior venae cavae. It then passes from the right atrium chamber into the right ventricle. Once in the ventricle, this blood cannot flow back because of one-way valves separating the “receiving” from the “pumping” sections of the total heart organ.
After this valve closes following a vitally synchronized timing system, constriction of the right ventricle by the myocardium muscle in the surrounding walls of the heart forces the blood...
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Treatment and Therapy (Magill’s Medical Guide, Sixth Edition)
Extraordinary medical advances have helped reduce the high death rates formerly associated with heart attacks. Many of these advances have been in the field of preventive medicine. The most widely recognized medical findings are related to diet, smoking, and exercise. Although controversy remains, there is general agreement that cholesterol absorbed by the body from the ingestion of animal fats plays a key role in the dangerous buildup of platelets inside arterial passageways. It has been accepted that regular, although not necessarily strenuous, exercise is an essential long-term preventive strategy that can reduce the risk of heart attacks. Exercise also plays a role in therapy after a heart attack. In both preventive and postattack contexts, it has been medically proven that the entire cardiovascular system profits from the natural muscle-strengthening process (in the heart’s case) and general cleansing effects (in the case of oxygen intake and stimulated blood flow) that result from controlled regular exercise.
The actual application of medical scientific knowledge to assist in the campaign against the deadly effects of heart disease involves multiple fields of specialization. These may range from the sophisticated use of electrocardiograms (ECGs) to monitor the regularity of heartbeats, to specialized drug therapies aimed at preventing heart attacks in people who have been diagnosed as high-risk cases, to...
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Perspective and Prospects (Magill’s Medical Guide, Sixth Edition)
The modern conception of cardiology dates from William Harvey’s seventeenth century discovery of the relationship between the heart’s function as a pump and the circulatory “restoration” of blood. Harvey’s much more scientific views replaced centuries-old conceptions of the heart as a blood-warming device only.
Although substantial anatomical advances were made over the next two centuries that helped explain most of the vital functions of the heart, it was not until the early decades of the twentieth century that science developed therapeutic methods to deal with problems that frequently cause heart attacks. Drugs that affect the liver’s production of substances necessary for normal coagulation of blood, for example, were discovered in the 1930’s. A large variety of such anticoagulants have since been developed to help thin the blood of patients vulnerable to blood clotting. Other drugs, including certain antibiotics, are used to treat persons whose susceptibility to infection is known to be high. In these cases, the simple action of dislodging bacteria from the teeth when brushing can cause an invasion of the vital parts of the heart by an infection. This bacterialendocarditis, the result of the actual destruction of heart tissue or the sudden release of clots of infectious residue, could lead to a heart attack in such individuals although they have no other symptoms of identifiable heart...
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For Further Information: (Magill’s Medical Guide, Sixth Edition)
American Heart Association. http://www.american heart.org. Site provides comprehensive information on heart disease and conditions, healthy lifestyles, and resources, and provides interactive health tools.
Baum, Seth J. The Total Guide to a Healthy Heart: Integrative Strategies for Preventing and Reversing Heart Disease. New York: Kensington, 2000. This book brings together the practices of both conventional and alternative approaches to reversing heart disease and maintaining heart health. Offers great insight into why the integrative approach to maintaining a healthy heart will be the medicine of the new millennium.
Berra, Kathleen, et al. Heart Attack! Advice for Patients by Patients. New Haven, Conn.: Yale University Press, 2002. After an introductory chapter detailing diagnosis, treatment, and rehabilitation, offers eleven other chapters authored by heart attack survivors—including several medical professionals—and their lessons learned. Diet and nutrition, advances in treatment, and cardiac rehabilitation programs are covered.
Crawford, Michael, ed. Current Diagnosis and Treatment—Cardiology. 3d ed. New York: McGraw-Hill Medical, 2009. Discusses advances in cardiac diagnostics, treatments, and prognostic indicators and includes extensive information on prevention techniques.
Eagle, Kim A., and Ragavendra R. Baliga, eds. Practical Cardiology: Evaluation...
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Heart Attack (Encyclopedia of Medicine)
A heart attack is the death of, or damage to, part of the heart muscle because the supply of blood to the heart muscle is severely reduced or stopped.
Heart attack is the leading cause of death in the United States. More than 1.5 million Americans suffer a heart attack every year, and almost half a million die, according to the American Heart Association. Most heart attacks are the end result of years of silent but progressive coronary artery disease, which can be prevented in many people. A heart attack is often the first symptom of coronary artery disease. According to the American Heart Association, 63% of women and 48% of men who died suddenly of coronary artery disease had no previous symptoms. Heart attacks are also called myocardial infarctions (MIs).
A heart attack occurs when one or more of the coronary arteries that supply blood to the heart are completely blocked and blood to the heart muscle is cut off. The blockage is usually caused by atherosclerosis, the buildup of plaque in the artery walls, and/or by a blood clot in a coronary artery. Sometimes, a healthy or atherosclerotic coronary artery has a spasm and the blood flow to part of the heart decreases or stops. Why this happens is unclear, but it can result in a heart attack.
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Heart Attack (Encyclopedia of Alternative Medicine)
A heart attack is the death of, or damage to, part of the heart muscle because its blood supply is severely reduced or stopped.
Heart attack is the leading cause of death in the United States. Approximately every 29 seconds one American will have a heart attack, and once a minute one American will die from a heart attack. More than 1.5 million Americans suffer a heart attack every year, and almost half a million die, according to the American Heart Association. Most heart attacks are the end result of years of silent but progressive coronary artery disease, which can be prevented in many people. A heart attack is often the first symptom of coronary artery disease. According to the American Heart Association, 63% of women and 48% of men who died suddenly of coronary artery disease had no previous symptoms. Heart attacks are also called myocardial infarctions (MIs).
A heart attack occurs when one or more of the coronary arteries that supply blood to the heart are completely blocked and blood to the heart muscle is cut off. The blockage is usually caused by atherosclerosis, the buildup of plaque in the artery walls, and/or by a blood clot in a coronary artery. Sometimes, a healthy or atherosclerotic coronary artery has a spasm and the blood flow to part of the heart decreases or stops....
(The entire section is 3579 words.)
Myocardial Infarction (Encyclopedia of Nursing & Allied Health)
A myocardial infarction, or heart attack, is the death or damage of part of the heart muscle because the supply of blood to the heart muscle is severely reduced or stopped.
Myocardial infarction (MI) is the leading cause of death in the United States. More than 1.5 million Americans suffer a myocardial infarction every year, and nearly half a million die, according to the American Heart Association. Most myocardial infarctions are the end result of years of silent, undetected, progressive coronary artery disease. A myocardial infarction is often the first detected symptom of coronary artery disease. According to the American Heart Association, 63% of women and 48% of men who died suddenly of coronary artery disease had no previous symptoms. Myocardial infarctions are commonly called heart attacks.
A myocardial infarction occurs when one or more of the coronary arteries that supply blood to the heart are completely blocked and blood to the heart muscle is cut off. The blockage is usually caused by atherosclerosis, the build-up of plaque in artery walls, and/or by a blood clot in a coronary artery. Sometimes, a healthy or atherosclerotic coronary artery has a spasm and the blood flow to part of the heart decreases or stops. The result may be a myocardial infarction.
About half of all myocardial infarction patients wait at least two hours before seeking help. This delay dramatically increases the risk of sudden death or disability. The longer the artery remains blocked during a myocardial infarction, the more damage will be done to the heart. If the blood supply is cut off severely, or for longer than 12 hours, muscle cells suffer irreversible injury and die. The patient can die. That is why it is vitally important to teach patients to recognize the signs of a myocardial infarction and seek immediate medical attention at the nearest hospital with 24-hour emergency cardiac care.
About one fifth of all myocardial infarctions are silent, that is, the patient is unaware that the MI has occurred. Although the patient feels no pain, silent myocardial infarctions still damage the heart.
The outcome of a myocardial infarction depends on the location of the blockage, whether the heart rhythm is disturbed, and whether there is collateral circulation to the territory supplied by the acutely occluded coronary artery. Blockages in the left coronary artery are usually more serious than those affecting the right coronary artery. Blockages that produce arrhythmia (irregular heartbeat) can cause sudden death.
Causes and symptoms
Myocardial infarctions are generally caused by severe coronary artery disease. Most myocardial infarctions are caused by blood clots that form on atherosclerotic plaque. This impedes the coronary artery from supplying oxygen-rich blood to part of the heart. A number of major and contributing risk factors increase the likelihood of developing coronary artery disease. Some of these risk factors can be modified, but others cannot. Persons with more risk factors are more likely to develop coronary artery disease.
Major risk factors
Major risk factors significantly increase the likelihood of developing coronary artery disease. Risk factors that cannot be changed include:
- Heredity. People whose parents have coronary artery disease, particularly those who develop it at younger ages, are more likely to be diagnosed with it. African Americans are also at increased risk, due to their higher rate of severe hypertension than caucasians.
- Gender. Men under the age of 60 years of age are more likely to have myocardial infarctions than women of the same age.
- Age. Men over age 45 and women over age 55 are considered at risk. Older adults (those over 65) are more likely to die of a myocardial infarction. Older women are twice as likely to die within a few weeks of a myocardial infarction as men. This increased mortality may be attributable to other co-existing medical problems.
Major risk factors which can be changed are:
- Smoking. Smoking greatly increases both the risk of developing coronary artery disease and resulting mortality. Smokers have two to four times the risk of nonsmokers of sudden cardiac death and are more than twice as likely to have a myocardial infarction. They are also more likely to die within an hour of a myocardial infarction. Second-hand smoke may also increase risk.
- High cholesterol. Cholesterol is produced by the body, and obtained from eating animal products such as meat, eggs, milk, and cheese. Age, gender, heredity, and diet affect cholesterol level. Risk of developing coronary artery disease increases as blood cholesterol levels increase. When combined with other factors, the risk is even greater. Total cholesterol of 240 mg/dL or more poses a high risk, and 20039 mg/dL a borderline high risk. In LDL (low-density lipoprotein) cholesterol, high risk starts at 13059 mg/dL, depending on other risk factors. Low levels of HDL (high-density lipoprotein) increases the risk of coronary disease; high HDL protects against it.
- Hypertension (high blood pressure). High blood pressure makes the heart work harder, and over time, weakens it. It increases the risk of myocardial infarction, stroke, kidney failure, and congestive heart failure. Blood pressure of 140 over 90 or above is considered high. As the numbers increase, high blood pressure progresses from Stage One (mild) to Stage Four (very severe). When hypertension is combined with obesity, smoking, high cholesterol, or diabetes, the risk of myocardial infarction or stroke increases several times.
- Sedentary lifestyle and lack of physical activity. Inactivity increases the risk of coronary artery disease. Even modest physical activity is beneficial if done regularly.
Contributing risk factors
Contributing risk factors have been linked to coronary artery disease, but their significance and prevalence are not known yet. Contributing risk factors are:
- Diabetes mellitus. The risk of developing coronary artery disease is seriously increased for diabetics. More than 80% of diabetics die of some type of heart or blood vessel disease.
- Obesity. Excess weight increases the strain on the heart muscle and increases the risk of developing coronary artery disease, even if no other risk factors are present. Obesity increases both blood pressure and blood cholesterol, and can lead to diabetes.
- Stress and anger. Stress and anger can produce physiological changes that contribute to the development of coronary artery disease. Stress, the mental and physical reaction to life's irritations and challenges, increases heart rate and blood pressure, and can injure the lining of the arteries. Evidence shows that anger increases the risk of dying from heart disease and more than doubles the risk of having a myocardial infarction right after an episode of anger.
More than 60% of myocardial infarction patients experience symptoms before the myocardial infarction occurs. These symptoms may occur days or weeks before the myocardial infarction. Sometimes, people do not recognize the symptoms of a myocardial infarction or deny
that they are having symptoms. Common symptoms include:
- Uncomfortable pressure, fullness, heaviness, squeezing, or pain in the center of the chest. The sensation lasts more than a few minutes, or may go away and return.
- Pain that spreads to the shoulders, neck, left arm, or jaw.
- Chest discomfort accompanied by lightheadedness, fainting, sweating, nausea, or shortness of breath.
All of these symptoms do not necessarily occur with every myocardial infarction. Sometimes, symptoms disappear and then reappear. Individuals with any of these symptoms should immediately call an emergency rescue service or be driven to the nearest hospital with a 24-hour cardiac care unit, whichever is quicker.
Experienced emergency care personnel confirm the diagnosis of MI, by taking a thorough history, checking heart rate and blood pressure, performing an electrocar diogram, and drawing a blood sample. The electrocardiogram shows which of the coronary arteries is blocked. The blood test detects the leak of enzymes or other biochemical markers from damaged cells in the heart muscle. In clinical practice, timely treatment is based on the patient history, physical examination, and ECG findings.
Treatment is initiated in the emergency department with thrombolytic agents, aspirin, oxygen, and betablockers. Oxygen is used to ease the heart's workload or to help patients breathe easier. If oxygen is administered within hours of the myocardial infarction, it also may help limit damage to the heart. Subsequent treatment includes close monitoring, nitrates and morphine if needed, electric shock, drug therapy, re-vascularization procedures, coronary angioplasty, and coronary artery bypass surgery.
Patients with complications such as arrhythmias, congestive heart failure, and hypertension or hypotension require additional treatment. A defibrillator may be used to restore a normal rhythm. A temporary pacemaker may be inserted to correct a bradyarrhythmia (slow heart rate). ACE inhibitors may be used to treat congestive heart failure.
Drugs to stabilize the patient and limit damage to the heart include thrombolytics, aspirin, anticoagulants, painkillers, and tranquilizers, beta-blockers, ACE inhibitors, nitrates, anti-arrhthythmics (rhythm-stabilizing) drugs, and diuretics. Thrombolytics, used to limit damage to the heart, work only if given within six to 12 hours of the onset (when the chest pain began) of the myocardial infarction. Thrombolytic drugs act by dissolving the blood clot that is blocking the acutely occluded coronary artery. They increase the likelihood of survival when given as soon as possible after the myocardial infarction. Thrombolytics given within a few hours after a myocardial infarction are the most effective. Injected intravenously, these include acylated plasminogen streptokinase activator complex (APSAC) or anistreplase (Eminase), recombinant tissue-type plasminogen activator (r-tPA, Retevase, or Activase), and streptokinase (Streptase, Kabikinase). Thrombolytics may only be given if they are not contraindicated by disorders such as active bleeding, trauma or surgery within the preceding two weeks, blood pressure greater than 200/120 mm Hg, and pregnancy.
To prevent additional myocardial infarctions, aspirin and heparin, an anticoagulant, often follow the thrombolytic drug. These prevent new blood clots from forming and existing blood clots from growing. Anticoagulant drugs help prevent the blood from clotting. The most common anticoagulants are heparin and warfarin. Heparin is given intravenously while the patient is in the hospital. Aspirin helps to prevent the dissolved blood clots from reforming.
To relieve pain, a nitroglycerin tablet taken under the tongue or given intravenously. If the pain continues, morphine sulfate may be prescribed. Tranquilizers such as diazepam (Valium) or alprazolam (Ativan) may be prescribed to lessen the anxiety and emotional stress associated with myocardial infarction.
To limit the size of the myocardial infarction and prevent another, beta-blockers are often administered intravenously right after the myocardial infarction. These can also help prevent potentially fatal ventricular fibrillation. Beta-blockers include atenolol (Tenormin), metoprolol (Lopressor), nadolol, pindolol (Visken), propranolol (Inderal), and timolol (Blocadren).
Nitrates, a type of vasodilator, may also be given right after a myocardial infarction to help improve the delivery of blood to the heart and ease chest pain and heart failure symptoms. Nitrates include isosorbide mononitrate (Imdur), isosorbide dinitrate (Isordil, Sorbitrate), and nitroglycerin (Nitrostat).
When a myocardial infarction causes an abnormal heartbeat, arrhythmia drugs may be given to restore the heart's normal rhythm. These include amiodarone (Cordarone), atropine, bretylium, disopyramide (Norpace), lidocaine (Xylocaine), procainamide (Procan), propafenone (Rythmol), propranolol (Inderal), quinidine, and sotalol (Betapace). Angiotensin-converting enzyme (ACE) inhibitors reduce the resistance against which the heart beats and are used to manage and prevent heart failure. They are used to treat myocardial infarction patients whose hearts do not pump well or who have symptoms of heart failure. Taken orally, they include Altace, Capoten, Lotensin, Monopril, Prinivil, Vasotec, and Zestril. Angiotensin receptor blockers, such as losartan (Cozaar) may substitute. Diuretics can help get rid of excess fluids that sometimes accumulate when the heart is not pumping effectively. Usually taken orally, they cause the body to dispose of fluids through urination. Common diuretics include: bumetanide (Bumex), chlorthalidone (Hygroton), chlorothiazide (Diuril), furosemide (Lasix), hydrochlorothiazide (Hydrodiuril, Esidrix), spironolactone (Aldactone), and triamterene (Dyrenium).
Percutaneous transluminal coronary angioplasty, a type of catheter-based intervention, and coronary artery bypass surgery are invasive revascularization procedures that open blocked coronary arteries and improve blood flow. They are usually performed only on patients for whom clot-dissolving drugs do not work, or who have poor exercise stress tests, poor left ventricular function, or ischemia. Generally, angioplasty is performed before coronary artery bypass surgery.
Percutaneous transluminal coronary angioplasty, usually called coronary angioplasty, is a non-surgical procedure in which a catheter (a tiny plastic tube) tipped with a balloon is threaded from the femoral or brachial artery (blood vessel in the thigh or arm) into the blocked artery. The balloon is inflated and compresses the plaque to enlarge the blood vessel and open the blocked artery. The balloon is then deflated and the catheter is removed. Coronary angioplasty is performed by a cardiologist in a hospital and generally requires a two-day stay. It is successful about 90% of the time. For one third of patients, the artery restenoses (narrows again) within six months after the procedure. The procedure may be repeated. It is less invasive and less expensive than coronary artery bypass surgery.
In coronary artery bypass surgery, called bypass surgery, a vein taken from the patient's leg, or the internal mammary artery, may be used to reestablish blood flow beyond the coronary artery blockage. The healthy vein or artery then supplies oxygen-rich blood to the heart. Bypass surgery is major surgery appropriate for patients with blockages in two or three major coronary arteries or severely narrowed left main coronary arteries, as well as those who have not responded to other less invasive treatments. It is performed under general anesthesia using a heart-lung machine to support the patient while the healthy vein is attached to the coronary artery. About 70% of patients who have bypass surgery experience full relief from angina; about 20% experience partial relief. Long term symptoms recur in only about three or four percent of patients per year. Five years after bypass surgery, survival expectancy is 90%, at 10 years it is about 80%, at 15 years it is about 55%, and at 20 years it is about 40%.
There are three additional catheter-based interventions for unblocking coronary arteries that are currently being performed. During atherectomy, the surgeon shaves off and removes strips of plaque from the blocked artery. Laser angioplasty uses a catheter with a laser tip inserted into the vessel to burn or break down the plaque. Insertion of a metal coil called a stent also may be implanted permanently to keep a blocked artery open.
The sequelae (aftermath) of a myocardial infarction is often severe. Two-thirds of myocardial infarction patients never recover fully. Within one year, 27% of men and 44% of women die. Within six years, 23% of men and 31% of women have another myocardial infarction, 13% of men and 6% of women experience sudden death, and about 20% have heart failure. People who survive a myocardial infarction have a chance of sudden death that is four to six times greater than others and a chance of illness and death that is two to nine times greater. Older women are more likely than men to die within a few weeks of a myocardial infarction.
Health care team roles
Nurses, ECG technicians, laboratory technologists and other allied health professionals have important roles in the diagnosis of acute myocardial infarction as well as institution of timely treatment. Nurses and other practitioners involved in triage or screening in the emergency department must accurately assess patients with chest pain or other indications of myocardial infarction.
ECG technicians and laboratory technologists are responsible for performing the diagnostic tests, ECG and blood chemistries, to confirm the diagnosis of myocardial infarction. In the emergency department and on the hospital floor, nurses and allied health professionals are responsible for closely monitoring patients to prevent complications following myocardial infarction. During the hospitalization, nurses, dieticians, respiratory and physical therapists collaborate to plan a cardiac rehabilitation program and provide patient and family education.
Nurses, physical therapists, and dieticians work together to educate patients and their families. Patients are taught to recognize and accurately describe symptoms such as pain, pressure, or heaviness in the chest, arm, or jaw. Patients are advised to report any changes in the intensity or quality of their pain to nurses or other health care professionals while in the hospital. When necessary, they are counseled by nursing or pharmacy technicians about the use of sublingual (under the tongue) nitroglycerin to relieve chest pain. They are instructed to seek medical attention immediately should serious symptoms return after they have been discharged.
Along with instruction about medication, follow-up care, and the importance of participating in cardiac rehabilitation, patients are informed about ways to reduce their risk of having another myocardial infarction or other cardiac disorders. This education is tailored to the individual patient's needs. It may include referral to a smoking cessation program; nutritional counseling to reduce dietary fat and sodium and achieve a desirable body weight; and recommendations to increase physical activity. Patient education also addresses treatment of any coexisting illnesses such as diabetes, and instruction about ways to more effectively manage stress and anger.
Many myocardial infarctions can be prevented through a healthy lifestyle, which can reduce the risk of developing coronary artery disease. For patients who have already had a myocardial infarction, a healthy lifestyle and carefully following doctor's orders can prevent another myocardial infarction. A heart healthy lifestyle includes a low-fat diet, regular exercise, maintaining a healthy weight, no smoking, moderate drinking, no illegal drugs, controlling hypertension, and managing stress.
A healthy diet includes a variety of foods that are low in fat (especially saturated fat), low in cholesterol, and high in fiber; plenty of fruits and vegetables; and limited sodium. Some foods are low in fat but high in cholesterol, and some are low in cholesterol but high in fat. Saturated fat raises cholesterol, and, in excessive amounts, it increases the amount of the proteins in blood that form blood clots. Polyunsaturated and monounsaturated fats are relatively good for the heart. Fat should comprise no more than 30% of total daily calories.
Cholesterol, a waxy, lipid-like substance, comes from eating foods such as meat, eggs, and other animal products. It is also produced in the liver. Soluble fiber can help lower cholesterol. Patients should be advised to limit cholesterol to about 300 mg per day. Many lipid-lowering drugs reduce LDL-cholesterol by an average of 250% when combined with a low-fat, low-cholesterol diet. Fruits and vegetables are rich in fiber, vitamins, and minerals. They are also low calorie and nearly fat free. Vitamin C and beta-carotene, found in many fruits and vegetables, keep LDL-cholesterol from turning into a form that damages coronary arteries. Excess sodium can increase the risk of high blood pressure. Many processed foods contain large amounts of sodium. Patients should be advised to limit daily intake to about 2,400 mgbout the amount in a teaspoon of salt.
The "Food Guide Pyramid" developed by the U.S. Departments of Agriculture and Health and Human Services provides easy to follow guidelines for daily heart-healthy eating: six to 11 servings of bread, cereal, rice, and pasta; three to five servings of vegetables; two to four servings of fruit; two to three servings of milk, yogurt, and cheese; and two to three servings of meat, poultry, fish, dry beans, eggs, and nuts. Fats, oils, and sweets should be used sparingly.
Regular aerobic exercise can lower blood pressure, help control weight, and increase HDL ("highly desirable") cholesterol. It may keep the blood vessels more flexible. Moderate intensity aerobic exercise lasting about 30 minutes four or more times per week is recommended for maximum heart health, according to the Centers for Disease Control and Prevention and the American College of Sports Medicine. Three 10-minute exercise periods are also beneficial. Aerobic exerciseactivities such as walking, jogging, and cyclingses the large muscle groups and forces the body to use oxygen more efficiently. It can also include everyday activities such as active gardening, climbing stairs, or brisk housework.
Maintaining a desirable body weight is vital for heart health. More than half of American adults are overweight as defined by a body mass index (BMI) greater than 25. The percentage of obese adults (BMI greater than 30) is nearly 25%, a 50% increase over the past 20 years. People who are 20% or more over their ideal body weight have an increased risk of developing coronary artery disease. Losing weight can help reduce total and LDL cholesterol, reduce triglycerides, and boost relative levels of HDL cholesterol. It may also reduce blood pressure.
Smoking has many adverse effects on the heart. It increases the heart rate, constricts major arteries, and can create irregular heartbeats. It also raises blood pressure, contributes to the development of plaque, increases the formation of blood clots, and causes blood platelets to cluster and impede blood flow. Quitting can repair heart damage caused by smokingven heavy smokers can return to heart health. Several studies have shown that ex-smokers face the same risk of heart disease as nonsmokers within five to 10 years of quitting.
Patients should be counseled to drink alcohol in moderation. Modest consumption of alcohol may actually protect against coronary artery disease. This is believed to be because alcohol raises HDL cholesterol levels. The American Heart Association defines moderate consumption as one ounce of alcohol per dayoughly one cocktail, one 8-ounce glass of wine, or two 12-ounce glasses of beer. In some people, however, moderate drinking can increase risk factors for heart disease, such as raising blood pressure. Excessive drinking is always bad for heart health. It usually raises blood pressure, and can poison the heart and cause abnormal heart rhythms or even heart failure. Illegal drugs, like cocaine, can seriously harm the heart and should never be used.
High blood pressure, one of the most common and serious risk factors for coronary artery disease, can be effectively controlled through lifestyle changes and medication. Patients with moderate hypertension may be able to control it through lifestyle changes such as reducing sodium and fat, exercising regularly, managing stress, quitting smoking, and drinking alcohol in moderation. When these changes are ineffective, and for those with severe hypertension, there are eight types of drugs that provide effective treatment.
Stress management means controlling mental and physical reactions to life's irritations and challenges. Techniques for controlling stress include taking life more slowly, spending time with family and friends, thinking positively, getting enough sleep, exercising, and practicing relaxation techniques.
Daily aspirin therapy has been proven to help prevent blood clots associated with atherosclerosis. It can also prevent myocardial infarctions from recurring, prevent myocardial infarctions from being fatal, and reduce the risk of strokes.
Anginahest pain that occurs when diseased blood vessels restrict the flow of blood to the heart. Angina is often the first symptom of coronary artery disease.
Atherosclerosis process in which the walls of the coronary arteries thicken due to the accumulation of plaque in the blood vessels. Atherosclerosis is the cause of coronary artery disease.
Coronary arterieshe two arteries that provide blood to the heart. The coronary arteries surround the heart like a crown, coming out of the aorta, arching down over the top of the heart, and dividing into two branches. These are the arteries where coronary artery disease occurs.
Plaque deposit of fatty and other substances that accumulate in the lining of the artery wall.
Ahya, Shubhada N, Kellie Flood, and Subramanian Paranjothi. The Washington Manual of Medical Therapeutics, 30th ed. Philadelphia: Lippincott Williams & Wilkins, 2001, pp. 105-116.
American Heart Association. Guide to Myocardial infarction Treatment, Recovery, Prevention. New York: Time Books, 1996.
DeBakey, Michael E., and Antonio M. Gotto Jr. The New Living Heart. Holbrook, MA: Adams Media Corporation, 1997.
"Drugs or Angioplasty After a Myocardial Infarction?" In Harvard Health Letter 22, no. 10 (August 1997): 8.
Marble, Michelle. "FDA Urged to Expand Uses for Aspirin, Benefits for Women." In Women's Health Weekly (February 10, 1997).
"More on Anger and Heart Disease." Harvard Heart Letter (May 1997): 6-7.
American Heart Association. National Center. 7272 Greenville Avenue, Dallas, TX 75231-4596. (214) 373-6300. <<a href="http://www.medsearch.com/pf/profiles/amerh/">http://www.medsearch.com/pf/profiles/amerh/>.
National Heart, Lung, and Blood Institute Information Center. P.O. Box 30105, Bethesda, MD 20824-0105. <<a href="http://www.nhlbi.gov/nhlbi/nhbli.htm">http://www.nhlbi.gov/nhlbi/nhbli.htm>.
Texas Heart Institute Heart Information Service. P.O. Box 20345, Houston, TX 77225-0345. 1-800-292-2221. <<a href="http://www.tmc.edu/thi/his.html">http://www.tmc.edu/thi/his.html>.