Also Known As
LA
Lupus Inhibitor
Formal Name
Lupus Anticoagulant
This article was last reviewed on
This article waslast modified on 4 July 2023.
At a Glance
Why Get Tested?

To help evaluate a prolonged activated partial thromboplastin time (aPTT) and/or a thrombotic episode, to help determine the cause of recurrent fetal loss, as part of an evaluation for antiphospholipid syndrome. Not a diagnostic test for lupus (SLE).

When To Get Tested?

When you have a prolonged aPTT test. When you have had a venous or arterial thromboembolism. When you have had recurrent miscarriages, especially in the 2nd and 3rd trimesters.

Sample Required?

A blood sample is obtained by inserting a needle into a vein in the arm.

Test Preparation Needed?

None

On average it takes 7 working days for the blood test results to come back from the hospital, depending on the exact tests requested. Some specialist test results may take longer, if samples have to be sent to a reference (specialist) laboratory. The X-ray & scan results may take longer. If you are registered to use the online services of your local practice, you may be able to access your results online. Your GP practice will be able to provide specific details.

If the doctor wants to see you about the result(s), you will be offered an appointment. If you are concerned about your test results, you will need to arrange an appointment with your doctor so that all relevant information including age, ethnicity, health history, signs and symptoms, laboratory and other procedures (radiology, endoscopy, etc.), can be considered.

Lab Tests Online-UK is an educational website designed to provide patients and carers with information on laboratory tests used in medical care. We are not a laboratory and are unable to comment on an individual's health and treatment.

Reference ranges are dependent on many factors, including patient age, sex, sample population, and test method, and numeric test results can have different meanings in different laboratories.

For these reasons, you will not find reference ranges for the majority of tests described on this web site. The lab report containing your test results should include the relevant reference range for your test(s). Please consult your doctor or the laboratory that performed the test(s) to obtain the reference range if you do not have the lab report.

For more information on reference ranges, please read Reference Ranges and What They Mean.

What is being tested?

Lupus anticoagulant is a protein that increases the risk of developing blood clots in both the veins and arteries. These clots may block blood flow in any part of the body, leading to strokes, heart attacks, pulmonary embolisms, deep vein thrombosis, and to recurrent foetal loss, especially in the 2nd and 3rd trimesters (thought to be related to clotting in placental blood vessels). The lupus anticoagulant is an acquired, not inherited, condition. Although it is found most frequently in those with autoimmune diseases, such as Systemic Lupus Erythematosus (SLE) and HIV, the lupus anticoagulant may also be seen chronically or temporarily in those with infections or cancers and in those who are taking certain medications, such as phenothiazines, chlorpromazine, procainamide, and fansidar. It is thought to be present in about 1 – 2% of the general population, and may develop in people with no known risk factors.
The term lupus anticoagulant (LA) is misleading. It is not a diagnostic test for lupus but gets its name because it was first discovered in patients with SLE, and because it often prolongs the activated partial thromboplastin time (aPTT) test - a timed blood test usually associated with anticoagulation and bleeding, not with thrombosis. It prolongs the aPTT test, as well as several other related tests, because the lupus anticoagulant binds to phospholipids and the reagents (chemicals) used in performing the aPTT test contain phospholipids.

In the body phospholipids play a vital role in the blood clotting process. They are found primarily on the surface of platelets and cell membranes and assist in the activation of several coagulation factors- proteins that are sequentially activated in response to blood vessel or tissue damage in a process called the coagulation cascade. The lupus anticoagulant is one of three types of test for antiphospholipid syndrome, associated with an increased risk of thrombosis. The others are anticardiolipin antibodies and antibodies against beta-2 glycoprotein-1 (less common). Any or all may be positive in antiphospholipid syndrome (also called Hughes' syndrome). Each interferes with the clotting process in a fashion that is not well understood and, singly or together, they increase a person's tendency to clot.

While anticardiolipin and anti-beta2-glycoprotein-1 antibodies may be tested for directly, there is not a single test for the lupus anticoagulant. It is usually diagnosed by using a panel of sequential tests that are taken through different stages. These tests operate on the principle that the lupus anticoagulant is a non-specific inhibitor – it does not target a specific coagulation factor, it binds to the assay’s phospholipids, inhibiting and prolonging the tests. The first test is usually an aPTT (or an LA-aPTT, a version of the test made more sensitive to LA) and the first stage is to see whether the original test is prolonged. If it is, then the patient’s plasma is mixed with pooled normal plasma (a combination of blood from different donors that contains all of the coagulation factors). If the prolongation is due to a specific coagulation factor deficiency then the normal plasma should "correct" the test to normal. If it is due to a non-specific inhibitor it will still be prolonged. In the third stage, additional phospholipids are added to the test. This should be sufficient to correct the test to near normal levels if the lupus anticoagulant is the cause of the abnormality. The Dilute Russell Viper Venom Test is a sensitive aPTT-like test for LA, and can also be performed with a phospholipid correction step.

How is the sample collected for testing?

A blood sample is obtained by inserting a needle into a vein in the arm.

Is any test preparation needed to ensure the quality of the sample?

No test preparation is needed. However the blood sample has to be collected from a medium to large sized vein with minimal application of a tourniquet.

Accordion Title
Common Questions
  • How is it used?

    Lupus anticoagulant testing is used to help determine the cause of an unexplained thrombosis, patients that have had a stroke, recurrent foetal loss, or a prolonged aPTT test. It is used to help determine whether a prolonged aPTT is due to a specific inhibitor (an antibody against a specific coagulation factor), or to a non-specific inhibitor, like the lupus anticoagulant. It may be used with anticardiolipin antibody and anti-beta2-glycoprotein-1 assay to check for the presence of antiphospholipid syndrome. If someone tests positive for the lupus anticoagulant, the test may be done again in several weeks to see if the antibody was due to a temporary condition or is a chronic issue. Occasionally lupus anticoagulant testing may be ordered to help determine the cause of a positive VDRL/RPR test for syphilis (both anticardiolipin and lupus antibodies will test false positive with these tests).

    Because there are other inhibitors and analytical variables that can cause abnormal test results, several different tests are used to confirm the presence of a lupus anticoagulant. Typically these may include: aPTT, prothrombin time (PT), dilute or modified Russell viper venom screen (dRVVT or MRVVT), and a hexagonal (II) phase phospholipid assay (Staclot-LA test) or kaolin clot time. A thrombin time test may also be done to rule out heparin contamination (this is a drug used for anticoagulant therapy), and a fibrinogen test may be done to rule out hypofibrinogenaemia. These two conditions can cause prolongations in the test results and interfere with lupus anticoagulant detection.

  • When is it requested?

    Lupus anticoagulant testing is requested when a patient has had an unexplained thrombotic episode, has had recurrent miscarriages, and/or as a follow-up to a prolonged aPTT test. If a lupus anticoagulant panel is positive your doctor may want to repeat one or more of the tests several weeks later to determine whether the lupus inhibitor is transitory or chronic.

    Your doctor may also want to test for the lupus anticoagulant when you have a positive anticardiolipin antibody, to evaluate whether you have antiphospholipid syndrome.

    If you are negative for the lupus anticoagulant but have an autoimmune disease, such as SLE or a mixed connective tissue disorder, your doctor may occasionally request one or more of the lupus anticoagulant screening tests, usually the aPTT, to determine whether or not you may have developed the lupus anticoagulant. This is most likely if you have developed symptoms suggestive of blood clot formation, such as pain and swelling in the extremities, shortness of breath, headaches, etc.

  • What does the test result mean?

    The results of each of the lupus anticoagulant tests either lead towards or away from the likelihood of having a lupus anticoagulant. Although the tests done may vary, they usually begin with a prolonged aPTT.

    • If the aPTT or LA-aPTT is prolonged, and mixing it with normal pooled plasma does not “correct” the result then it is likely that there is an inhibitor present. If the prolonged test corrects when phospholipid is added then it is likely that a lupus anticoagulant is present. (After heparin contamination, a lupus anticoagulant is the most common reason for a prolonged aPTT).
    • If the aPTT is not prolonged, there may not be a lupus anticoagulant or the test reagents may contain too much phospholipid, the test may not be sensitive enough to pick up the lupus anticoagulant. The LA sensitive aPTT may need to be done.
    • If a dRVVT or MRVVT test is prolonged and does not correct when mixed with normal pooled plasma, but does correct with the addition of phospholipids then it is likely that a phospholipid antibody is present.
    • If a Thrombin Time test is normal then there is not significant heparin contamination in the blood sample.
    • If a Fibrinogen test is normal then it is likely that there is sufficient fibrinogen for normal clot formation.

    Other tests that may be done to help confirm the diagnosis of a lupus anticoagulant include:

    • Platelet Neutralisation (this uses platelets as a source of phospholipids)
    • Hexagonal (II) Phase Phospholipid Assay (Staclot-LA test)
    • Kaolin Clot Time
    • Silica Clotting Time
    • Tissue thromboplastin inhibition test
    • VDRL or RPR – these are tests for syphilis. Their reagents are made of cardiolipin and they will give a false positive result for both anticardiolipin antibodies and for lupus antibodies
    • Coagulation Factors (these may be ordered to rule out factor deficiencies that may cause a prolonged aPTT and bleeding episodes)
    • Prothrombin Time (PT)

    Other tests that may be run in addition to lupus anticoagulant testing:

  • Is there anything else I should know?

    Patients on heparin or heparin substitute (such as hirudin, danaparoid, or argatroban) or Direct Oral Anticoagulants (DOAC's) anticoagulation therapy may give false-positive results for lupus antibodies but those on warfarin (coumadin) anticoagulant therapy should not. If possible, lupus anticoagulant testing should be done prior to the start of anticoagulation therapy. If a patient with a thrombosis has a lupus anticoagulant it may be necessary to prolong, and possibly increase the intensity of their anticoagulation therapy.

    In addition to testing for lupus antibodies, it may sometimes be necessary to test for coagulation factor VIII levels. Coagulation factor VIII inhibitors (specific antibodies against factor VIII) can decrease factor VIII levels and cause false-positive lupus anticoagulant tests. Elevated factor VIII levels, as may be seen in an acute infection or with replacement therapy when someone has Haemophilia A, may shorten the aPTT time, leading to a temporary false negative test for lupus anticoagulant.

  • Is sample collection really critical for lupus testing?

    Yes. Besides heparin contamination, other pretest variables may have a significant impact on detecting the lupus anticoagulant. The blood sample is collected in a special citrated tube and centrifuged to remove the plasma (liquid part) for testing. There must be the proper amount of blood in the tube and it cannot be clotted or haemolysed. When the blood is centrifuged most of the platelets are left behind. If there are too many in the plasma sample, it may be compromised (because platelets are a source of phospholipids). Also, if the patient's haematocrit (the amount of solid components in their blood) is elevated or decreased test results may be affected. If samples are not tested the same day as receipt the patient’s platelet poor plasma should be frozen within 4 hours and freeze thawing of samples should be avoided as spurious results can occur.

  • How is a lupus anticoagulant treated?

    No treatment is required if someone does not have any symptoms. If blood clots do occur, patients are usually anticoagulated with heparin (which is injected under the skin or given intravenously (IV)) followed by oral warfarin (coumadin) therapy for several months. Higher than normal doses of warfarin may be required in this situation and the treatment may need to be continued for a longer period of time than normal. If someone has lupus anticoagulant the risk of recurrence of both arterial and venous thrombotic episodes is relatively high. Some patients may need to be on long-term (even life-long) oral anticoagulation.

  • Which is more common anticardiolipin or LA?

    In general, anticardiolipin antibodies are more common than the lupus anticoagulant. Anticardiolipin antibodies occur approximately five times more often than the lupus anticoagulant in patients with the antiphospholipid antibody syndrome. About sixty percent of those with the lupus anticoagulant will also have anticardiolipin antibodies.