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    Atherosclerosis

    Atherosclerosis is a condition in which patchy deposits
    of fatty material (atheromas or atherosclerotic plaques)
    develop in the walls of medium sized and large arteries,
    leading to reduced or blocked blood flow.

    In the United States and most other Western countries, atherosclerosis is the
    leading cause of illness and death. In the United States alone, it caused over
    1 million deaths in 2007 – two times more than cancer caused and ten times as
    many as accidents caused. Despite significant medical advances, heart attacks
    due to coronary artery disease (atherosclerosis that affects the arteries to the
    brain) are responsible for more deaths than all other causes combined.

    Atherosclerosis can have an effect on the medium sized and large arteries of
    the brain, heart, kidneys, other vital organs, as well as the legs. It is the most
    important and most common type of arteriosclerosis, a general term for several
    diseases in which the wall of an artery becomes thicker and less elastic.

    There are two main theories about why atherosclerosis develops: High levels
    of cholesterol in the blood injure the artery’s lining, causing an inflammatory
    reaction and allowing cholesterol and other fatty materials to accumulate there.
    Or, repeated injury to the artery’s wall may occur through various mechanisms
    involving the immune system or through direct toxicity. In both cases, there are
    changes that can lead to the formation of atheromas. The two theories are
    probably interrelated and are not mutually exclusive.

    Atherosclerosis is thought to also involve inflammation, because certain white
    blood cells – lymphocytes, monocytes, and macrophages – are present
    throughout the development of atherosclerosis. These cells usually gather
    only when inflammation develops. Atherosclerosis begins when monocytes
    are activated and move out of the bloodstream into the wall of an artery.
    There, they are changed into foam cells, which collect cholesterol and other
    fatty materials. In time, these fat laden foam cells accumulate. They form
    patchy deposits (atheromas) in the lining of the artery’s wall, causing a
    thickening there.

    Infection may play a role in the development of atherosclerosis. The infection may
    be due to bacteria (Chamydia pneumoniae, which can cause pneumonia,
    or Helicobacter pylori, which can contribute to stomach ulcers) or to a virus (as
    yet unidentified). Infection may damage the lining of the artery’s wall, enabling
    atherosclerosis to begin.

    Atheromas may be scattered throughout medium sized and large arteries, but
    they usually form where the arteries branch – presumably because the constant
    turbulent blood flow at these areas injures the artery’s wall, making these areas
    more susceptible to atheroma formation.

    Arteries affected by atherosclerosis also lose their elasticity, possibly
    contributing to high blood pressure. As the atheromas grow, the interior
    (lumen) of the arteries narrows. Over time, calcium accumulates in the atheromas,
    which may become brittle and rupture. Blood may enter a ruptured atheroma,
    making it larger, so that it narrows the artery even more. A ruptured atheroma
    also may spill its fatty contents into the bloodstream and block an artery
    elsewhere in the body. More often, the rupture of an atheroma triggers
    the creation of a blood clot (thrombus), which is the main cause of a heart
    attack or stroke. The clot may further narrow or even block the artery, or the
    clot may detach (becoming an embolus), travel through the bloodstream, and
    block another artery downstream.

    Risk Factors

    Risk factors for atherosclerosis include smoking, high levels of cholesterol in
    the blood, high blood pressure, diabetes, obesity, physical inactivity, and high
    blood levels of homocysteine (an amino acid). These risk factors can usually
    be modified. Risk factors that cannot be modified include having a family history
    of early atherosclerosis (that is having a close relative who developed the disease
    at a young age), advancing age, and male gender. Men have a higher risk than
    women, although women who have coronary artery disease are more likely to die
    than men who have the disease.

    Smoking: One of the most important modifiable risk factors is smoking.
    A smoker’s risk of developing coronary artery disease is directly related to the
    number of cigarettes smoked daily. In people who already have a high risk of
    heart disease, smoking is particularly dangerous.

    Smoking decreases the level of high density lipoprotein cholesterol (HDL)
    cholesterol – the good cholesterol – and increases the level of low density
    lipoprotein (LDL) cholesterol – the bad cholesterol. Smoking increases the
    level of carbon monoxide in the blood, which may increase the risk of injury
    to the lining of the artery’s wall. Smoking causes arteries already narrowed
    by atherosclerosis to constrict, further lessening the amount of blood reaching the
    tissues. In addition, smoking increases the blood’s propensity to clot (by making
    platelets stickier), so that it increases the risk of peripheral arterial disease
    (atherosclerosis affecting arteries other than those that supply the
    heart and brain), coronary artery disease, stroke, and blockage of an arterial
    graft placed during bypass surgery.

    People who quit smoking have only half the risk of those who continue to smoke
    regardless of how long they smoked before quitting. Quitting also decreases the
    risk of death after coronary artery bypass surgery or a heart attack and the risk of
    illness and death in people who have peripheral arterial disease.
    The benefits of quitting smoking begin immediately and have been shown
    to increase with time.

    Secondhand smoke (smoke breathed in from someone else’s smoking)
    appears to increase risk also. It should be avoided.

    High Cholesterol Levels: A high cholesterol level is another important modifiable
    risk factor. Lowering high cholesterol levels through the use of statins can
    significantly reduce the risk of heart attacks, strokes, and death. Many of the
    risk factors for high cholesterol levels are also risk factors for atherosclerosis.
    They include smoking, diabetes, obesity, and physical inactivity. A high fat diet
    causes cholesterol levels to increase in vulnerable people. Cholesterol levels
    increase as people age and are on average higher in men than in women,
    although levels increase in women after menopause.

    However, not all types of cholesterol increase the risk of atherosclerosis.
    A high level of LDL (bad) cholesterol increases the risk. A high level of HDL
    (good) cholesterol decreases the risk, and a low level increases the risk.
    Ideally, the level of total cholesterol, which includes LDL and HDL cholesterol
    and triglycerides, is 140 to 200 mg/dL. Risk of having a heart attack more than
    doubles when a persons total cholesterol level approaches 300 mg/dL.
    The risk is decreased when the LDL cholesterol level is below 130 mg/dL, and the
    HDL cholesterol level is above 40 mg/dL. However, the percentage of HDL
    cholesterol in relation to total cholesterol is a more reliable measure of risk than is
    the total of LDL cholesterol level. HDL cholesterol should account for more than
    25% of total cholesterol. High triglyceride levels are often linked with low HDL
    cholesterol levels. However, research suggests that high triglyceride
    levels alone may also increase the risk of atherosclerosis.

    Several hereditary disorders that result in high levels of cholesterol or other
    fats also increase the risk of atherosclerosis. For example, familial
    hypercholesterolemia, which can result in extremely high levels of cholesterol,
    causes atheromas to form, principally in the coronary arteries. People who have
    this disease and are untreated die of coronary artery disease at an early age.

    High Blood Pressure: Uncontrolled high diastolic or systolic blood pressure is a
    risk factor for heart attack and stroke, which are caused by atherosclerosis.

    Diabetes Mellitus: People who have type one diabetes tend to develop
    atherosclerosis that affects small arteries, such as those in the eyes and
    kidneys. Some people with type one diabetes and most people with type
    two diabetes have a propensity to develop atherosclerosis in large arteries.
    Those people also tend to develop atherosclerosis at an earlier age and more
    extensively than do people who do not have diabetes. The risk of developing
    atherosclerosis is 2 to 6 times higher for people with diabetes, particularly women.
    Women who have diabetes (unlike those who do not) are not protected from
    atherosclerosis before menopause.

    Obesity: Obesity, particularly abdominal (truncal) obesity, increases the risk
    of coronary artery disease (atherosclerosis of the arteries that supply blood
    to the heart). Abdominal obesity increases the risk of other risk factors for
    atherosclerosis: high blood pressure, type 2 diabetes, and high cholesterol levels.
    Losing weight reduces the risk of all these disorders.

    Physical Inactivity: Physical inactivity is likely to increase the risk of developing
    coronary artery disease, and much evidence suggests that regular exercise
    reduces this risk. Exercise can also help modify other risk factors for
    atherosclerosis – by lowering blood pressure and cholesterol levels and
    by helping with weight loss.

    High Blood Levels of Homocysteine (Hyperhomocysteinemia): High levels of
    homocysteine (an amino acid) in the blood may directly injure the lining of
    arteries, making the formation of atheromas more likely. High homocysteine levels
    may also promote the formation of blood clots. Homocysteine levels increase with
    age, particularly after menopause. High homocysteine levels
    in the blood may be caused by homocystinuria (a hereditary disorder that
    causes excessive excretion of homocysteine in the urine). People who have
    this disorder develop extensive atherosclerosis, often at a young age.
    Atheromas form in many arteries, but not primarily in the coronary arteries,
    which supply the heart.

    If Hyperhomocysteinemia is due to a condition other than hereditary
    (homocystinuris), the risk of atherosclerosis affecting he coronary arteries
    (as well as the arteries to the brain and the peripheral arteries) is increased.
    Conditions that may increase homocysteine levels in the blood include a
    deficiency of folic acid or of vitamin B6 or B12, kidney failure, some cancers (such
    as breast cancer), psoriasis, heavy smoking, and use of certain drugs. These
    drugs include those that interact with folic acid or vitamin B6 or B12,
    such as methotrexate (used to treat cancer) and the anticonvulsants phenytoin
    and carbamazepine; drugs that interfere with absorption of homocysteine, such
    as the cholesterol lowering drugs colestipol, cholestyramine, and niacin; and
    drugs that interfere with metabolism of homocysteine, such as the antibiotic
    isoniazid.

    Symptoms

    Typically, atherosclerosis does not produce symptoms until it narrows the
    interior of an artery by more than 70%. Symptoms depend on where the
    narrowing or blockage, which can occur almost anywhere in the body, is.
    If the arteries supplying the heart (coronary arteries) are narrowed, chest
    pain (angina) can result; if they are blocked, a heart attack can result.
    Abnormal heart rhythms and heart failure may also develop. Blockage in the
    arteries supplying the brain (carotid arteries) can cause a stroke. Narrowing
    of the arteries in the legs can cause leg cramps (intermittent claudication).
    In people older than 55, the arteries supplying one or both kidneys may
    become narrowed or blocked, sometimes causing kidney failure or dangerously
    high blood pressure (malignant hypertension).

    Symptoms occur because as atherosclerosis narrows an artery more and more,
    tissues, supplied by the artery may not receive enough blood and oxygen. The
    first symptom of a narrowing artery may be pain or cramps at times when blood
    glow cannot deep up with the tissues need for oxygen. For instance, during
    exercise, a person may feel chest pain because the oxygen supply to the heart
    is inadequate; while walking, a person may feel leg cramps because the oxygen
    supply to the legs is inadequate.

    Typically, symptoms develop gradually as the atheroma slowly narrows an
    artery. However, sometimes the first symptoms occur suddenly because the
    blockage occurs suddenly – for example, when a blood clot loges in an artery
    narrowed by an atheroma, causing a heart attack or stroke.

    Prevention and Treatment

    To help prevent atherosclerosis, a person needs to be aware of the risk
    factors that can be modified – for example, smoking, high blood cholesterol levels,
    high blood pressure, obesity, and physical inactivity. So depending on
    a person’s risk factors, prevention may consist of quitting smoking, lowering
    cholesterol levels, lowering blood pressure, losing weight, and beginning an
    exercise program.

    When atherosclerosis becomes severe enough to cause complications, the
    complication themselves must be treated. Complications include angina, heart
    attack, abnormal heart rhythms, heart failure, kidney failure, stroke, and leg
    cramps (intermittent claudication).

    Source: Merck Manual of Medical Information


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