Disclaimer:
This website is intended to assist with patient education and should not be used as a diagnostic, treatment or prescription service, forum or platform. Always consult your own healthcare practitioner for a more personalised and detailed opinion
To determine whether you have an inherited gene mutation that increases your risk of developing a blood clot, including a deep venous thrombosis (DVT) and/or venous thromboembolism (VTE)
When you have had an unexplained blood clot (thrombotic episode), especially when you are less than 50 years old, have recurrent DVT or VTE episodes, experienced DVT or VTE during pregnancy, had DVT at unusual sites, or have a strong family history of thrombosis
A blood sample drawn from a vein in your arm
None
Factor V Leiden and prothrombin 20210 (PT 20210) are genetic mutations that are associated with an increased risk of developing inappropriate blood clots. Two separate tests for these mutations are often performed together to detect the mutations and help determine if an individual has an inherited risk for excessive clotting.
Factor V and prothrombin are coagulation factors, two of a group of proteins essential for proper blood clot formation. When an injury occurs and bleeding starts, a process called hemostasis begins to form a plug at the injury site to help stop the bleeding. Blood cells called platelets adhere to and aggregate at the injury site, and a coagulation cascade begins to activate coagulation factors in sequence. Eventually, a blood clot forms. Once the area has healed, the blood clot dissolves.
There must be an adequate number of each of the coagulation factors, and each must function normally in order for a stable blood clot to form and then dissolve when no longer needed. Too little of the factors, or ones that are dysfunctional, can lead to bleeding or inappropriate clotting (thrombosis).
Factor V Leiden and PT 20210 are two mutations that individuals may inherit from their parents that may cause an increased risk of excessive clotting. A person may inherit one mutated gene copy and be heterozygous or may inherit two mutated gene copies and be homozygous. This may determine to what extent the person is affected.
Factor V Leiden mutation is the most common inherited predisposition to abnormal clotting in the United States and it is most common in the Caucasian population. Between 3 and 8 percent of U.S. Caucasians carry one copy of the factor V Leiden mutation and about 1 in 5,000 people have two copies of the mutation. While homozygous cases of Factor V Leiden are more rare, they also carry a higher risk of thrombosis. People with two copies of the mutation may have up to 80 times the risk of thrombophilia while those with one copy have 4 to 8 times the risk, compared to those who do not carry the mutation.
A person with a PT 20210 mutation may be heterozygous or homozygous, although it is very rare to find individuals who are homozygous. The affected heterozygous person will have a mild to moderate increase in their thrombin production, which is associated with 2.5 to 3 fold greater risk of developing a VTE in Caucasians; there is not enough information about risk in those who are homozygous. Although PT 20210 is less common in the U.S. than Factor V Leiden (about 1-2% of the general population), it is also more prevalent in Caucasians than in those of other ethnic backgrounds.
These mutations are independent and are tested separately, but the tests are often performed at the same time as part of the investigation of a blood clot (thrombotic episode) in someone who is suspected of having an inherited risk factor for an excessive clotting (hypercoagulable) disorder. Each test is used to identify whether or not the specific mutation is present and to determine whether the person has one copy (heterozygous) or two copies (homozygous) of that mutation.
A blood sample is obtained by inserting a needle into a vein in the arm.
No test preparation is needed.