Antiphospholipid syndrome is a disorder characterized by an increased tendency to form abnormal blood clots (thromboses) that can block blood vessels. This clotting tendency is known as thrombophilia. In antiphospholipid syndrome, the thromboses can develop in nearly any blood vessel in the body. If a blood clot forms in the vessels in the brain, blood flow is impaired and can lead to stroke. Antiphospholipid syndrome is an autoimmune disorder. Autoimmune disorders occur when the immune system attacks the body's own tissues and organs.

Women with antiphospholipid syndrome are at increased risk of complications during pregnancy. These complications include pregnancy-induced high blood pressure (preeclampsia), an underdeveloped placenta (placental insufficiency), early delivery, or pregnancy loss (miscarriage). In addition, women with antiphospholipid syndrome are at greater risk of having a thrombosis during pregnancy than at other times during their lives. At birth, infants of mothers with antiphospholipid syndrome may be small and underweight.

A thrombosis or pregnancy complication is typically the first sign of antiphospholipid syndrome. This condition usually appears in early to mid-adulthood but can begin at any age.

Other signs and symptoms of antiphospholipid syndrome that affect blood cells and vessels include a reduced amount of cells involved in blood clotting called platelets (thrombocytopenia), a shortage of red blood cells (anemia) due to their premature breakdown (hemolysis), and a purplish skin discoloration (livedo reticularis) caused by abnormalities in the tiny blood vessels of the skin. In addition, affected individuals may have open sores (ulcers) on the skin, migraine headaches, or heart disease. Many people with antiphospholipid syndrome also have other autoimmune disorders such as systemic lupus erythematosus.

Rarely, people with antiphospholipid syndrome develop thromboses in multiple blood vessels throughout their body. These thromboses block blood flow in affected organs, which impairs their function and ultimately causes organ failure. These individuals are said to have catastrophic antiphospholipid syndrome (CAPS). CAPS typically affects the kidneys, lungs, brain, heart, and liver, and is fatal in over half of affected individuals. Less than 1 percent of individuals with antiphospholipid syndrome develop CAPS.

Antiphospholipid syndrome (APS) is a rare autoimmune disorder caused when antibodies—immune system cells that fight off bacteria and viruses—mistakenly attack normal proteins in the blood. Specific antibodies activate the inner lining of blood vessels, which leads to the formation of blood clots in arteries or veins in the brain, legs, kidneys, and lungs.

APS is sometimes called “sticky blood syndrome”  because of the increased tendency for blood clots to form. A clot that forms in the brain can interrupt the flow of blood and cause a stroke. Other neurological symptoms may include:

• chronic headaches
• dementia (similar to the dementia of Alzheimer's disease)
•  seizures
• chorea (a movement disorder in which the body and limbs writhe uncontrollably)
• cognitive dysfunction, such as poor memory
• transverse myelitis, an inflammation of the spinal cord
• depression or psychosis
• damage to the optic nerve
• sudden hearing loss

APS affects fewer than 200,000 people. Treatment is aimed at thinning the blood to prevent clots from forming and to keep existing clots from getting larger. Treatment should be lifelong. Doctors often recommend that individuals stop smoking, exercise regularly, and eat a healthy diet to prevent high blood pressure and diabetes, which are diseases that increase the risk for stroke. 

Antiphospholipid syndrome is estimated to affect 1 in 2,000 people. This condition may be responsible for up to one percent of all thromboses. It is estimated that 20 percent of individuals younger than age 50 who have a stroke have antiphospholipid syndrome. Ten to 15 percent of people with systemic lupus erythematosus have antiphospholipid syndrome. Similarly, 10 to 15 percent of women with recurrent miscarriages likely have this condition. Approximately 70 percent of individuals diagnosed with antiphospholipid syndrome are female.

Antiphospholipid Syndrome (APS) is a disorder characterized by elevated levels of multiple different antibodies that are associated with both arterial and venous thrombosis (clots in the arteries and veins).

What is antiphospholipid syndrome (APS)?

Antiphospholipid syndrome (APS), also known as antiphospholipid antibody syndrome and sometimes Hughes syndrome, is a disorder characterized by elevated levels of multiple different antibodies (proteins produced by the body to fight off foreign substances) that are associated with both arterial and venous thrombosis (clots in the arteries and veins).

There are two primary classes of antiphospholipid (aPL) antibodies, the antibodies associated with APS. These are called anticardiolipin antibodies and the lupus anticoagulant, and are directed against specific molecules. These aPL antibodies appear to be mainly directed against two particular molecules: beta-2-glycoprotein I (ß2GPI, a normal protein found in the blood whose function is unknown) and another molecule known as prothrombin (a normal blood protein that binds to phospholipids and plays a very important role in blood clotting).

These aPL antibodies were first noted in a group of people who had positive tests for syphilis without signs of infection. It was then noticed that some individuals who continued to have false-positive tests for syphilis went on to develop systemic lupus erythematosus (SLE) and other similar conditions. Later studies found a protein called the lupus anticoagulant in a number of individuals with SLE. A case report in 1956 described an individual with recurrent pregnancy loss, thrombophlebitis (inflammation of a vein related to a blood clot) and lupus anticoagulant. The work of Dr. Graham Hughes and his colleagues in the 1980s provided further understanding of APS, including the introduction of testing for anticardiolipin antibodies.

Up until the 1980s, it was thought that aPL antibodies were directed against a type of molecule known as anionoic phospholipids. However, in the early 1990s, several different groups discovered that this was not the case. Anticardiolipin antibodies were found to act against ß2GPI, while the lupus anticoagulant was first found to act against ß2GPI and, more recently, prothrombin.

There are two main classifications of APS. If the individual has no known underlying autoimmune disorder, the person is said to have primary APS. If the individual has SLE or another underlying autoimmune disorder, the person is said to have secondary APS. Although APS is divided into these two categories, research indicates that there is little essential difference between them.

What are some of the signs, complications and conditions associated with APS?

APS usually shows up for the first time as vascular thrombosis (a blood clot in an artery or vein) or embolism (the blockage of a blood vessel caused by a clot that has moved in the blood stream from the site where it formed to a different place in the body) or as recurrent pregnancy loss. Thrombocytopenia (a low platelet count), certain skin problems, neurological signs, heart valve disease and certain autoimmune diseases have also been noted in association with APS. Pulmonary hypertension (high blood pressure in the arteries that supply the lungs) and sensorineural hearing loss (hearing loss caused by damage to the inner ear or to the nerve pathways from the inner ear) have been noted in some individuals with APS as well.

Conditions associated with APS include:

• Systemic Vascular Thrombosis
  While the deep veins of the legs are the most frequent sites of thrombosis, thromboembolism can involve virtually any vein or artery. Deep vein thrombosis tends to be the most common finding, occurring in half of affected individuals; other sites of venous thrombotic events include the veins of the lungs (due to pulmonary embolism, a clot that typically has dislodged from a vein below the pulmonary veins and lodged in a pulmonary vein), thoracic veins (veins in or above the chest that carry blood to the heart including the superior vena cava, subclavian vein, or jugular vein), and abdominal or pelvic veins.
  
  A risk of recurrent thrombi is associated with APS as well. Most studies suggest that individuals who have a recurrent episode will have it in a similar blood vessel type. For example, individuals who have a stroke initially will most often have a stroke if they have a recurrence. Nonetheless, individuals are reported who have had different types of thrombotic events.

• Pregnancy Loss and Other Complications
  APS is associated with miscarriages as well as other complications of pregnancy. Most studies have estimated the prevalence of aPL antibodies among pregnant women at 5 percent or less; most of these women do not have any signs or symptoms of APS. Around 10-20 percent of women with multiple pregnancy losses are thought to have APS.
  
  Women with APS often have a history of recurrent (usually defined as three or more) pregnancy losses. Pregnancies occurring in women with APS are at significantly increased risk of miscarriage, prematurity, slower than expected growth of the fetus, and preeclampsia (high blood pressure during pregnancy). Pregnant women with APS are also more prone to develop deep vein thrombosis during pregnancy or puerperium (the period between childbirth and the return of the uterus to its normal size).

• Thrombocytopenia
  An association with immune thrombocytopenia (low platelets) has also been established. This occurs to varying degrees in as many as 50 percent of individuals with APS. Because platelets help the blood to clot, thrombocytopenia can sometimes cause a bleeding disorder in an otherwise healthy person. However, in APS, thrombocytopenia is usually moderate and is rarely significant enough to cause bleeding complications or to affect anticoagulant (anti-clotting) therapy.

• Skin Disorders
  Certain skin conditions have also been observed in APS. These include livedo reticularis (mottled discoloration of the skin), ulcers (sores) on the skin, usually on the legs, and sometimes skin necrosis (a condition in which the skin tissue dies).

• Stroke and Other Neurological Disorders
  Stroke is associated with APS, as are some other neurological conditions. In addition to cerebrovascular thrombosis (a blood clot that forms in a blood vessel of the brain), embolic stroke (stroke caused by a blood clot that travels from a different location to a blood vessel in the brain) can also occur. Multiple strokes can sometimes lead to a condition called multi-infarct dementia.
  
  Other neurological problems have been have been reported in people with aPL antibodies, although they are not as strongly associated with APS as stroke. These include seizures, chorea (a movement disorder), migraines, Guillain-Barré syndrome, diabetic peripheral neuropathy, transverse myelitis (a disorder caused by inflammation across both sides of one level, or segment, of the spinal cord), and conditions similar to multiple sclerosis. Evidence for an association with cognitive dysfunction is growing.

• Heart Valve Disease
  A type of heart valve disease called Libman-Sacks endocarditis is sometimes seen in individuals with aPL antibodies. In this condition, growths on the heart valve can break off and travel through the blood stream, causing embolic events.

• Lupus and Other Autoimmune Disorders
  APS is classified within the category of autoimmune disorders (conditions caused by an immune response against the body's own tissues). Individuals with aPL antibodies sometimes have an additional autoimmune disorder, most commonly systemic lupus erythematosus (SLE). About 30-40 percent of individuals with SLE have elevated aPL antibodies. APS has also been associated with a number of other autoimmune disorders, including myasthenia gravis, Graves' disease, autoimmune hemolytic anemia, and Evan's syndrome.

How is APS diagnosed?

A diagnosis of APS is made based on both clinical and laboratory findings. APS is diagnosed if an individual experiences one or more episodes of thrombosis or pregnancy loss and if aPL antibodies are detected through laboratory testing of the individual's blood.

There are two main types of antiphospholipid antibody tests - immunological tests, like the anticardiolipin ELISA (enzyme-linked immunoassay), and coagulation-based tests for the lupus anticoagulant. ELISAs are immunologically-based tests, or immunoassays, in which an antigen-antibody reaction is used to detect the antibodies. In contrast, lupus anticoagulant tests detect antibodies based on their ability to slow down phospholipid-dependent clotting reactions. Most individuals with APS have antibodies that can be detected in both tests; however, a significant percentage of patients are positive in one test but not the other. Therefore, to diagnose APS, it is standard practice for both tests to be performed. The tests are then repeated six to eight weeks later to confirm the presence of aPL antibodies.

Who gets APS?

There are no hard and fast statistics about the number of people with aPL antibodies or APS. What we know is based on estimates from different studies over time. Research suggests that aPL antibodies may be found in around 1 to 5 percent of the healthy general population. Primary APS accounts for over 50% of cases. In individuals with SLE, approximately 30 percent have aPL antibodies, and around 30-50 percent of these individuals have symptoms and signs of APS. It is more difficult to measure the number of people with primary APS, but studies indicate that between 5-30 percent of individuals with thrombosis and no history of SLE have aPL antibodies. Additional studies suggest that aPL antibodies may play a role in approximately one-third of strokes in individuals under the age of 50.

A female predominance has been noted, especially for secondary APS. This parallels the association of APS with SLE and other connective-tissue diseases, which also have a female predominance.

If thrombosis occurs in an individual with APS, this usually happens between the ages of 35-45 years. After age 60, signs and symptoms of are APS rarely seen for the first time.

Is APS inherited?

Although APS has been reported to occur in multiple members of the same family, no clear inheritance pattern has been identified and no gene has been found to be the sole cause of this condition. One report in 1999 studied families with more than one affected member, examined possible modes of inheritance, and examined links with certain genes. In seven families, 30 out of 101 family members met diagnostic criteria for the syndrome. The data were fitted best by either a dominant (one copy of the altered gene inherited from one parent causes the condition) or codominant (features related to the condition from both parents are observed) model.

Is there an effective treatment for APS?

Treatment for APS must be individualized according to the person's current health status and the types of problems that person has experienced due to their APS. In general, for a person who has aPL antibodies and has had a thrombotic event, a short-term course of heparin (an anticoagulant, which is a type of medication used to prevent blood clots from forming or getting bigger) is followed by long-term - sometimes life-long - treatment with warfarin (another type of anticoagulant).

In women with moderate to high levels of aPL antibodies and a history of pregnancy loss who wish to get pregnant again, treatment is again individualized. After consulting with and obstetrician and rheumatologist and/or hematologist, women generally begin treatment with heparin and low-dose aspirin.

For those individuals who have been found to have aPL antibodies but have not had any signs or symptoms of APS, low-dose aspirin is generally recommended by their doctors.

If you or someone you know has been diagnosed with APS, we recommend talking with a health care provider to determine a personalized course of management.

Antiphospholipid antibody syndrome (APS) can affect people of any age. The disorder is more common in women than men, but it affects both sexes.

APS also is more common in people who have other autoimmune or rheumatic disorders, such as lupus. ("Rheumatic" refers to disorders that affect the joints, bones, or muscles.)

About 10 percent of all people who have lupus also have APS. About half of all people who have APS also have another autoimmune or rheumatic disorder.

Some people have APS antibodies, but don't ever have signs or symptoms of the disorder. The mere presence of APS antibodies doesn't mean that you have APS. To be diagnosed with APS, you must have APS antibodies and a history of health problems related to the disorder.

However, people who have APS antibodies but no signs or symptoms are at risk of developing APS. Health problems, other than autoimmune disorders, that can trigger blood clots include:

• Smoking
• Prolonged bed rest
• Pregnancy and the postpartum period
• Birth control pills and hormone therapy
• Cancer and kidney disease

The genetic cause of antiphospholipid syndrome is unknown. This condition results from the presence of three abnormal immune proteins (antibodies) in the blood. The antibodies that cause antiphospholipid syndrome are called lupus anticoagulant, anticardiolipin, and anti-B2 glycoprotein I. These antibodies are referred to as antiphospholipid antibodies. People with this condition can test positive for one, two, or all three antiphospholipid antibodies in their blood. Antibodies normally attach (bind) to specific foreign particles and germs, marking them for destruction, but the antibodies in antiphospholipid syndrome attack normal human proteins. When these antibodies attach to proteins, the proteins change shape and attach to other molecules and receptors on the surface of cells. Attaching to cells, particularly immune cells, turns on (activates) the blood clotting pathway and other immune responses.

The production of the antiphospholipid antibodies may coincide with exposure to foreign invaders, such as viruses and bacteria, that are similar to normal human proteins. Exposure to these foreign invaders may cause the body to produce antibodies to fight the infection, but because the invaders are so similar to the body's own proteins, the antibodies also attack the human proteins. Similar triggers may occur during pregnancy when a woman's physiology, particularly her immune system, adapts to accommodate the developing fetus. These changes during pregnancy may explain the high rate of affected females.

Certain genetic variations (polymorphisms) in a few genes have been found in people with antiphospholipid syndrome and may predispose individuals to produce the specific antibodies known to contribute to the formation of thromboses. However, the contribution of these genetic changes to the development of the condition is unclear.

People who repeatedly test positive for any of the antiphospholipid antibodies but have not had a thrombosis or recurrent miscarriages are said to be antiphospholipid carriers. These individuals are at greater risk of developing a thrombosis than is the general population. The risk is especially high in people who test positive for all three antiphospholipid antibodies (triple-positive).

Most cases of antiphospholipid syndrome are sporadic, which means they occur in people with no history of the disorder in their family. Rarely, the condition has been reported to run in families; however, it does not have a clear pattern of inheritance. Multiple genetic and environmental factors likely play a part in determining the risk of developing antiphospholipid syndrome.

The signs and symptoms of antiphospholipid antibody syndrome (APS) are related to abnormal blood clotting. The outcome of a blood clot depends on its size and location.

Blood clots can form in, or travel to, the arteries or veins in the brain, heart, kidneys, lungs, and limbs. Clots can reduce or block blood flow. This can damage the body's organs and may cause death.

Major Signs and Symptoms

Major signs and symptoms of blood clots include:

• Chest pain and shortness of breath
• Pain, redness, warmth, and swelling in the limbs
• Ongoing headaches
• Speech changes
• Upper body discomfort in the arms, back, neck, and jaw
• Nausea (feeling sick to your stomach)

Blood clots can lead to stroke, heart attack, kidney damage, deep vein thrombosis, and pulmonary embolism.

Pregnant women who have APS can have successful pregnancies. However, they're at higher risk for miscarriages, stillbirths, and other pregnancy-related problems, such as preeclampsia (pre-e-KLAMP-se-ah).

Preeclampsia is high blood pressure that occurs during pregnancy. This condition may progress to eclampsia. Eclampsia is a serious condition that causes seizures in pregnant women.

Some people who have APS may develop thrombocytopenia. This is a condition in which your blood has a lower than normal number of blood cell fragments called platelets.

Mild to serious bleeding causes the main signs and symptoms of thrombocytopenia. Bleeding can occur inside the body (internal bleeding) or underneath or from the skin (external bleeding).

Other Signs and Symptoms

Other signs and symptoms of APS include chronic (ongoing) headaches, memory loss, and heart valve problems. Some people who have APS also get a lacy-looking red rash on their wrists and knees.

Your doctor will diagnose antiphospholipid antibody syndrome (APS) based on your medical history and the results from blood tests.

Specialists Involved

A hematologist often is involved in the care of people who have APS. This is a doctor who specializes in diagnosing and treating blood diseases and disorders.

You may have APS and another autoimmune disorder, such as lupus. If so, a doctor who specializes in that disorder also may provide treatment.

Many autoimmune disorders that occur with APS also affect the joints, bones, or muscles. Rheumatologists specialize in treating these types of disorders.

Medical History

Some people have APS antibodies but no signs or symptoms of the disorder. Having APS antibodies doesn't mean that you have APS. To be diagnosed with APS, you must have APS antibodies and a history of health problems related to the disorder.

APS can lead to many health problems, including stroke, heart attack, kidney damage, deep vein thrombosis, and pulmonary embolism.

APS also can cause pregnancy-related problems, such as multiple miscarriages, a miscarriage late in pregnancy, or a premature birth due to eclampsia. (Eclampsia, which follows preeclampsia, is a serious condition that causes seizures in pregnant women.)

Blood Tests

Your doctor can use blood tests to confirm a diagnosis of APS. These tests check your blood for any of the three APS antibodies: anticardiolipin, beta-2 glycoprotein I (β2GPI), and lupus anticoagulant.

The term "anticoagulant" (AN-te-ko-AG-u-lant) refers to a substance that prevents blood clotting. It may seem odd that one of the APS antibodies is called lupus anticoagulant. The reason for this is because the antibody slows clotting in lab tests. However, in the human body, it increases the risk of blood clotting.

To test for APS antibodies, a small blood sample is taken. It's often drawn from a vein in your arm using a needle. The procedure usually is quick and easy, but it may cause some short-term discomfort and a slight bruise.

You may need a second blood test to confirm positive results. This is because a single positive test can result from a short-term infection. The second blood test often is done 12 weeks or more after the first one.

Antiphospholipid antibody syndrome (APS) has no cure. However, medicines can help prevent complications. The goals of treatment are to prevent blood clots from forming and keep existing clots from getting larger.

You may have APS and another autoimmune disorder, such as lupus. If so, it's important to control that condition as well. When the other condition is controlled, APS may cause fewer problems.

Research is ongoing for new ways to treat APS.

Medicines

Anticoagulants, or "blood thinners," are used to stop blood clots from forming. They also may keep existing blood clots from getting larger. These medicines are taken as either a pill, an injection under the skin, or through a needle or tube inserted into a vein (called intravenous, or IV, injection).

Warfarin and heparin are two blood thinners used to treat APS. Warfarin is given in pill form. (Coumadin® is a common brand name for warfarin.) Heparin is given as an injection or through an IV tube. There are different types of heparin. Your doctor will discuss the options with you.

Your doctor may treat you with both heparin and warfarin at the same time. Heparin acts quickly. Warfarin takes 2 to 3 days before it starts to work. Once the warfarin starts to work, the heparin is stopped.

Aspirin also thins the blood and helps prevent blood clots. Sometimes aspirin is used with warfarin. Other times, aspirin might be used alone.

Blood thinners don't prevent APS. They simply reduce the risk of further blood clotting. Treatment with these medicines is long term. Discuss all treatment options with your doctor.

Side Effects

The most common side effect of blood thinners is bleeding. This happens if the medicine thins your blood too much. This side effect can be life threatening.

Sometimes the bleeding is internal (inside your body). People treated with blood thinners usually need regular blood tests, called PT and PTT tests, to check how well their blood is clotting.

These tests also show whether you're taking the right amount of medicine. Your doctor will check to make sure that you're taking enough medicine to prevent clots, but not so much that it causes bleeding.

Talk with your doctor about the warning signs of internal bleeding and when to seek emergency care.

Treatment During Pregnancy

Pregnant women who have APS can have successful pregnancies. With proper treatment, these women are more likely to carry their babies to term.

Pregnant women who have APS usually are treated with heparin or heparin and low-dose aspirin. Warfarin is not used as a treatment during pregnancy because it can harm the fetus.

Babies whose mothers have APS are at higher risk for slowed growth while in the womb. If you're pregnant and have APS, you may need to have extra ultrasound tests (sonograms) to check your baby’s growth. An ultrasound test uses sound waves to look at the growing fetus.

Treatment for Other Medical Conditions

People who have APS are at increased risk for thrombocytopenia. This is a condition in which your blood has a lower than normal number of blood cell fragments called platelets. Platelets help the blood clot.

If you have APS, you'll need regular complete blood counts (a type of blood test) to count the number of platelets in your blood.

Thrombocytopenia is treated with medicines and medical procedures.

If you have other health problems, such as heart disease or diabetes, work with your doctor to manage them.

Antiphospholipid antibody syndrome (APS) has no cure. However, you can take steps to control the disorder and prevent complications.

Take all medicines as your doctor prescribes and get ongoing medical care. Talk with your doctor about healthy lifestyle changes and any concerns you have.

Medicines

You may need to take anticoagulants, or "blood thinners," to prevent blood clots or to keep them from getting larger. You should take these medicines exactly as your doctor prescribes.

Tell your doctor about all other medicines you're taking, including over-the-counter or herbal medicines. Some medicines, including over-the-counter ibuprofen or aspirin, can thin your blood. Your doctor may not want you to take two medicines that thin your blood because of the risk of bleeding.

Women who have APS shouldn't use birth control or hormone therapy that contains estrogen. Estrogen increases the risk of blood clots. Talk with your doctor about other options.

Ongoing Medical Care

If you have APS, getting regular medical checkups is important. Have blood tests done as your doctor directs. These tests help track how well your blood is clotting.

The medicines used to treat APS increase the risk of bleeding. Bleeding might occur inside your body (internal bleeding) or underneath the skin or from the surface of the skin (external bleeding). Know the warning signs of bleeding, so you can get help right away. They include:

• Unexplained bleeding from the gums and nose
• Increased menstrual flow
• Bright red vomit or vomit that looks like coffee grounds
• Bright red blood in your stools or black, tarry stools
• Pain in your abdomen or severe pain in your head
• Sudden changes in vision
• Sudden loss of movement in your limbs
• Memory loss or confusion

A lot of bleeding after a fall or injury or easy bruising or bleeding also might mean that your blood is too thin. Ask your doctor about these warning signs and when to seek emergency care.

Lifestyle Changes

Talk with your doctor about lifestyle changes that can help you stay healthy. Ask him or her whether your diet may affect your medicines. Some foods or drinks may increase or decrease the effects of warfarin.

Ask your doctor what amount of alcohol is safe for you to drink if you're taking medicine. If you smoke, talk with your doctor about programs and products that can help you quit. Smoking can damage your blood vessels and raise your risk for many health problems.

APS medicines might increase your risk of bleeding. Thus, your doctor may advise you to avoid activities that have a high risk of injury, such as some contact sports.

Other Concerns

Pregnancy

APS can raise the risk of pregnancy-related problems. Talk with your doctor about how to manage your APS if you're pregnant or planning a pregnancy.

With proper treatment, women who have APS are more likely to carry babies to term than women whose APS isn't treated.

Surgery

If you need surgery, your doctor may adjust your medicines before, during, and after the surgery to prevent dangerous bleeding.