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A Practical Guide to Laboratory Haemostasis

 

Dilute Russell's Viper Venom Time [DRVVT]



Introduction & Principle

Russell's viper venom [RVV] isolated from the snake Daboia russelii [or russellii - the correct spelling is a matter of great debate!] contains a potent activator of factor X which in the presence of phospholipid [PL], prothrombin and calcium ions clots fibrinogen to fibrin. In individuals with a lupus anticoagulant [LA] the antibody binds to the phospholipid inhibiting the action of the RVV and prolonging the clotting time.
As the RVV directly activates factor X, the test is unaffected by deficiencies of factors XII, XI, IX or VIII. The DRVVT is frequently combined with a platelet neutralisation procedure to demonstrate the phospholipid specificity of the antibody.

Method

Pooled normal plasma is mixed with diluted PL at 37°C. Diluted RVV and then calcium chloride are added and the clotting time is measured. The test is then repeated using patient plasma and the ratio of test:normal plasma is calculated.

Reagent Explanation
Platelet poor Plasma  A source of coagulation factors, particularly thrombin and fibrinogen. 
Dilute Russell's Viper venom Typically this is diluted to give a clotting time in normal plasma of between 30-35s as this optimises sensitivity to antiphospholipid antibodies.
Phospholipid To provide a surface for thrombin generation. This should be diluted to a sufficient degree that it becomes the rate limiting step and any inhibition by a LA prolongs coagulation.
Calcium  To initiate coagulation

 

Interpretation

If the DRVVT is not prolonged then the correction test (sometimes referred to as the neutralisation test) is not indicated.

DRVVT Interpretation
DRVVT
Ratio [Test DRVVT/control DRVVT]
Reference Range: 29-42s
Reference Ratio: 0.9-1.05
Ratio [Test DRVVT/control DRVVT] >1.05 Possible LA
Exclude deficiencies of factors II, V, X, fibrinogen or another non-LA inhibitor
Prolonged DRVVT which corrects with normal plasma Clotting factor deficiency
[A weak LA can sometimes be masked in a 1:1 mix with normal plasma and some labs recommend a 1:4 mix [Normal plasma:Test plasma] to try and minimise this]
Prolonged DRVVT which corrects with PL Lupus anticoagulant

 

Calculating the percentage correction:

1. The percentage correction is calculated using the formula below where '+ PL' is the DRVVT with additional phospholipid i.e. the neutralisation step.

2. The percentage correction of the ratio is calculated using the formula below where again '+ PL' is the DRVVT with additional phospholipid. The final result is multiplied by 100 to covert it into a percentage:

This latter calculation is that currently recommended by the British Committee for Standardisation in Haematology [BCSH.]

In the following example:

Sample dRVVT Clotting Time [s] Ratios
Patient Plasma 69.2 s [Patient Plasma]/[Reference Plasma] = 1.82
Reference Control [Normal] Plasma 37.9 s
Patient Plasma + Phospholipid 39.5 s [Patient Plasma + Phospholipid]/Reference Control [Normal] Plasma +  Phospholipid] = 1.21
Reference Control [Normal] Plasma +  Phospholipid 32.5 s


From the data above: [1.82 - 1.21/1.82] x 100 = 33.5% correction. So in a patient in whom the dRVVT is prolonged as in this case [69.2s] the 33.5% correction is consistent with the presence of a lupus anticoagulant.

3. What constitutes a positive correction ratio? Most laboratories regard a correction of >10% with PL as being a positive test.

What Test Next

In individuals in whom a LA is identified, the test should be repeated in 12 weeks. It should also be remembered that not all tests including the DRVVT will identify all LAs and therefore, if the index of suspicion that a specific patient has a LA then other tests should be undertaken e.g. Silica Clotting Time [SCT]. Finally - the causes of a LA should be screened for e.g. ANA, drugs, viruses etc.

Data Interpretation

Click HERE to go to the Data Interpretation Exercises.