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Para conocer los horarios, visitas sin turno y citas.Factor VIII; von Willebrand factor activity; von Willebrand factor antigen
If the patient's hematocrit exceeds 55%, the volume of citrate in the collection tube must be adjusted. Refer to Coagulation Collection Procedures for directions.
2 - 3 days
Turnaround time is defined as the usual number of days from the date of pickup of a specimen for testing to when the result is released to the ordering provider. In some cases, additional time should be allowed for additional confirmatory or additional reflex tests. Testing schedules may vary.
For more information, please view the literature below.
Procedures for Hemostasis and Thrombosis: A Clinical Test Compendium
Plasma (platelet poor), frozen
2 mL
Blue-top (sodium citrate) tube
Citrated plasma samples should be collected by double centrifugation. Blood should be collected in a blue-top tube containing 3.2% buffered sodium citrate.1 Evacuated collection tubes must be filled to completion to ensure a proper blood to anticoagulant ratio.2,3 The sample should be mixed immediately by gentle inversion at least six times to ensure adequate mixing of the anticoagulant with the blood. A discard tube is not required prior to collection of coagulation samples, except when using a winged blood collection device (i.e., "butterfly"), in which case a discard tube should be used.4,5 When noncitrate tubes are collected for other tests, collect sterile and nonadditive (red-top) tubes prior to citrate (blue-top) tubes. Any tube containing an alternate anticoagulant should be collected after the blue-top tube. Gel-barrier tubes and serum tubes with clot initiators should also be collected after the citrate tubes. Centrifuge for 10 minutes and carefully remove 2/3 of the plasma using a plastic transfer pipette, being careful not to disturb the cells. Deliver to a plastic transport tube, cap, and recentrifuge for 10 minutes. Use a second plastic pipette to remove the plasma, staying clear of the platelets at the bottom of the tube. Transfer the plasma into a Labcorp PP transpak frozen purple tube with screw cap (Labcorp No. 49482). Freeze immediately and maintain frozen until tested.
Please print and use the Volume Guide for Coagulation Testing to ensure proper draw volume.
Freeze.
As VWF and FVIII are acute-phase reactant proteins, patients should be at ease when blood is drawn. Undue stress, such as a crying child or very recent exercise may elevate VWF levels, and these conditions should be avoided. Certain anticoagulant therapies, such as heparin, direct thrombin inhibitors, and direct Xa inhibitors may interfere with FVIII activity results but will not interfere with analysis of VWF. Do not draw from an arm with a heparin lock or heparinized catheter.
Gross hemolysis; clotted specimen; frozen specimen thawed in transit; improper labeling; improper collection tube
This test is used to diagnose von Willebrand factor (vWF) deficiency.6,7
A number of transient clinical conditions can raise the vWF levels of individuals with congenital deficiency into the normal range.8,9 vWF is an acute phase reactant and levels can increase due to stress, inflammation, acute infection, physical exercise, and following surgery.8,9 Levels can also increase with estrogen administration for contraception or hormone replacement.8,9 vWF levels are increased two-to-threefold in the second and third trimesters of pregnancy.8,9 Individuals with type O blood tend to have approximately 30% lower vWF levels than those with other blood types.8,9
See individual tests.
See individual test descriptions.
• von Willebrand factor (vWF) activity: 50% to 150%
• von Willebrand factor (vWF) antigen: 50% to 150%
• Factor VIII activity: 50% to 150%
Average vWF levels (both antigen and activity) tend to vary by blood type.8 One study found the mean vWF levels by blood type to be as follows:9
• Type O: 74.8%
• Type A: 105.6%
• Type B: 116.9%
• Type AB: 123.3%
vWF is produced by megakaryocytes and endothelial cells.8,9 The vWF protein polymerizes in plasma into multimers of up to 100 subunits that range in size from 0.5 to 20 million daltons.8,9 vWF's plasma half-life is about 24 hours.
vWF performs two major functions in hemostasis.8,9 vWF acts as a cross-linking protein that connects platelets to each other and to subendothelial cells at the site of vascular damage. This functionality is dependent on the presence of high molecular weight multimers of vWF. vWF also serves as an obligate carrier of factor VIII in plasma. Functional vWF serves to protect factor VIII from proteolytic degradation and effectively increases its half-life fivefold.8,9 Effective factor VIII binding is not dependent on the presence of large multimeric vWF complexes.8,9 The assessment of vWF activity requires two tests to evaluate these two functions. The vWF activity (ristocetin cofactor) assay reflects the effectiveness of the patient vWF in supporting platelet adhesion. Factor VIII levels can be diminished due to low vWF levels or due to ineffective factor VIII binding by a defective vWF.
von Willebrand disease (vWD) should be considered in the differential diagnosis of any case where a patient with bleeding history has a normal protime (PT) and activated partial thromboplastin time (aPTT). The aPTT can be extended in severe vWD due to diminished levels of factor VIII that result from inadequate vWF binding.8,9
vWD is the most common congenital bleeding disorder known with an estimated incidence of 1 in 100 individuals;8,9 however, the clinical incidence of vWD is much lower because many of these individuals remain asymptomatic and are never diagnosed.8,9 The severity of bleeding for patients with vWD can vary, even among family members with the same defect.8,9 Bleeding symptoms are usually similar to those seen with platelet disorders and other defects in primary hemostasis.8,9 A typical symptom of an individual with a defect in primary hemostasis would be profuse bleeding from small cuts with the need for prolonged application of pressure to stop the bleeding.8,9 Many individuals with less severe forms of vWD are first identified because of a history of recurrent nosebleeds (epistaxis).8,9 vWD patients generally present with mucocutaneous bleeding characterized by epistaxis, ecchymosis, easy bruising, gingival bleeding, menorrhagia, or genitourinary bleeding.8,9 Three different types of vWD can be distinguished based on the results of laboratory tests and the severity of symptoms.8,9
• Type 1: A genetic defect causing diminished production of functional vWF. Laboratory tests typically reveal correspondingly low levels of both vWF antigen and activity.8,9 This is the most common form, representing approximately 75% of cases.8,9 Type 1 vWD is usually inherited as an autosomal dominant mutation.8,9 The risk of bleeding in women with vWD is increased in the postpartum period when vWF levels drop precipitously from the elevated levels developed during pregnancy.8,9
• Note: While individuals with very low vWF levels (i.e., <30%) are more likely to have an identifiable genetic basis for the condition, individuals with moderately diminished levels (30% to 50%) may be classified simply as having low vWF, not Type I vWF disease.8,9 It is often difficult to directly attribute increased bleeding to low vWF in these patients because bleeding associated with moderately diminished vWF is generally mild and complaints of mild bleeding tendency are commons.8,9
• Type 2: A number of forms of type 2 vWD are characterized by the presence of dysfunctional vWF protein. Individuals with these forms represent approximately 25% of cases of vWD.8,9 Individuals with type 2 vWD often have normal or slightly low levels of vWF antigen with relatively lower levels vWF activity.8,9 Type 2 vWD can be inherited as either dominant or recessive mutations.8 Individuals with heterozygous type 2 vWD generally suffer from more severe bleeding than those with type 1 vWD.
• Type 3: This relatively rare form of vWD occurs as the result of homozygous or compound heterozygous defects producing undetectable levels of vWF antigen and activity. Patients with this form of vWD generally have the worst bleeding symptoms. These individuals can present with spontaneous bleeding, significant postsurgical bleeding, or gastrointestinal hemorrhage.8,9 Factor VIII levels can be low or absent in type 3 patients resulting in bleeding similar to that seen in hemophilia A.8,9 It is important to distinguish between these two conditions because the methods of treatment are very different.
Acquired vWD is very rare with less than 100 cases documented in the literature.10 The majority of cases have been reported in association with autoimmune or clonal proliferative conditions.10 Acquired vWD has been reported in patients with systemic lupus erythematosus, antiphospholipid syndrome, and hypothyroidism. Other conditions associated with acquired vWD are Wilms' tumor and congenital cardiovascular disease.8,10 Autoantibodies to vWF can sometimes cause vWD in elderly individuals with multiple myeloma, lymphoproliferative disorders, or collagen vascular disease.
Order Code | Order Code Name | Order Loinc | Result Code | Result Code Name | UofM | Result LOINC |
---|---|---|---|---|---|---|
084715 | von Willebrand Profile | 48593-8 | 086264 | Factor VIII Activity | % | 3209-4 |
084715 | von Willebrand Profile | 48593-8 | 086280 | von Willebrand Factor (vWF) Ag | % | 27816-8 |
084715 | von Willebrand Profile | 48593-8 | 164509 | vWF Activity | % | 6014-5 |
Reflex Table for vWF Activity | ||||||
---|---|---|---|---|---|---|
Order Code | Order Name | Result Code | Result Name | UofM | Result LOINC | |
Reflex 1 | 910377 | Coag Studies Interp Report | 910378 | Interpretation | 21026-0 |
Reflex Table for vWF Activity | ||||||
---|---|---|---|---|---|---|
Order Code | Order Name | Result Code | Result Name | UofM | Result LOINC | |
Reflex 1 | 910377 | Coag Studies Interp Report | 910379 | Not available |
Reflex Table for vWF Activity | ||||||
---|---|---|---|---|---|---|
Order Code | Order Name | Result Code | Result Name | UofM | Result LOINC | |
Reflex 1 | 910377 | Coag Studies Interp Report | 910382 | Litholink | N/A |
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