General Approach of Haemostasis MIXING STUDIES Khoa Xet

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General Approach of Haemostasis MIXING STUDIES Khoa Xet Nghiem Huyet Hoc

General Approach of Haemostasis MIXING STUDIES Khoa Xet Nghiem Huyet Hoc

Mixing studies: Mixing studies are tests performed on blood plasma used to distinguish factor

Mixing studies: Mixing studies are tests performed on blood plasma used to distinguish factor deficiencies from factor inhibitors Ex: lupus anticoagulant, or specific factor inhibitors, such as antibodies directed against factor VIII.

Mixing studies: Mixing studies take advantage of the fact that factor levels that are

Mixing studies: Mixing studies take advantage of the fact that factor levels that are 50 percent of normal should give a normal Prothrombin time (PT) or Partial Thromboplastins time Mixing studies can help determine the appropriate next steps to take to diagnose the cause of an abnormal APTT or PT

Test method The patient plasma is mixed 1: 1 with Normal pooled plasma That

Test method The patient plasma is mixed 1: 1 with Normal pooled plasma That contains 100% of the normal factor level results in a level ≥ 50% in the mixture (say the patient has an activity of 0%; the average of 100% + 0% = 50%). Therefore, correction with mixing indicates factor deficiency; failure to correct indicates an inhibitor.

Test method Some inhibitors are time dependent. The clotting test performed immediately after the

Test method Some inhibitors are time dependent. The clotting test performed immediately after the specimens are mixed may show correction because the antibody has not had time to inactivate the added factor (false positive). A test performed after the mixture is incubated for 2 hours at 37°C will show prolongation.

Test method • Many specific factor inhibitors are time dependent, and the inhibitor will

Test method • Many specific factor inhibitors are time dependent, and the inhibitor will not be detected unless the test is repeated after incubation (factor VIII inhibitors are notorious for this). • Nonspecific inhibitors like the lupus anticoagulant usually are not time dependent; the immediate mixture will show prolongation.

Reagents and Equipment v. Pooled Plasma - platelet-poor plasma from 20 or more healthy,

Reagents and Equipment v. Pooled Plasma - platelet-poor plasma from 20 or more healthy, male and female adult donors. o DO NOT use a single-sourced normal plasma. o Pooled plasma must be used to ensure approximately 100% of all factors are present. o Do Not Use Lyophilized Normal Control. v Other reagents required to perform the screen test(s) (i. e. , PT or PTT).

Reagents and Equipment Quality Control The pooled plasma must be evaluated for the test

Reagents and Equipment Quality Control The pooled plasma must be evaluated for the test to be performed and results must fall within the reference range or testing is repeated with a fresh aliquot of the pooled plasma.

Expected Values

Expected Values

Interpretation The first step when evaluating unexpected prolonged PT or PTT results is to

Interpretation The first step when evaluating unexpected prolonged PT or PTT results is to rule out preanalytical interference, e. g. , presence of contaminating heparin. If the APTT or PT is corrected by normal plasma, a factor deficiency is indicated. If the APTT or PT is not corrected by the addition of nor-mal plasma immediately, a strong inhibitor is indicated. A weak or time-dependent inhibitor is indicated by a prolonged APTT or PT following incubation at 37°C for 1 to 2 hours ( factor VIII inhibitor).

Table A Differentiation of Factor Deficiency and Inhibitors By Mixing Studies 1: 1 Mixing

Table A Differentiation of Factor Deficiency and Inhibitors By Mixing Studies 1: 1 Mixing Study Results Factor deficiency Immediate acting inhibitor Time/temperature dependent inhibitor Not incubated Incubated Correction No correction Correction (Falsely) No correction Table adapted from Mc. Kenzie, S. , , Clinical l Laboratory Hematology, 2004, p. 790.

Possible Interpretations Coagulation Screen Results: PT mixing study results: Most likely interpretation: Probable cause(s):

Possible Interpretations Coagulation Screen Results: PT mixing study results: Most likely interpretation: Probable cause(s): Rare cause: PT prolonged PT corrects Factor VII deficiency Early response to warfarin, early vitamin K deficiency Congenital factor VII deficit Coagulation Screen Results: PTT mixing study results: Most likely interpretation: PTT prolonged PTT corrects Factor deficit Probable cause(s): Possible cause Factor VIII or IX (male) deficiency, or von Willebrand Disease (female) Factor inhibitor Coagulation Screen Results: PTT mixing study results: Most likely interpretation: Probable cause(s): PTT markedly prolonged (>200 seconds) PTT corrects Severe Contact Factor deficit Factor Prekallikrein, HMWK, XI, or XII Coagulation Screen Results: PT & PTT mixing study results: Most likely interpretation: Probable cause(s): Possible cause: PT and PTT prolonged PT and PTT correct Acquired, multiple factor deficiency DIC, Liver Disease, Vitamin K deficiency Warfarin therapy Coagulation Screen Results: PTT mixing study results: Most likely interpretation: Probable cause(s): PTT slightly – moderately prolonged No correction Immediately reacting antibody inhibitor Lupus anticoagulant

Comment q The antibody that inhibits factor VIII is most often a specific Ig.

Comment q The antibody that inhibits factor VIII is most often a specific Ig. G antibody (temperature and time dependent) , which will cause only a slightly prolonged APTT on initial testing. q If a factor VIII inhibitor is present, it is important to determine the initial level of factor activity because the development of an inhibitor complicates the management of a patient with hemophilia A when therapy involves AHF* concentrates. These should be monitored periodically. q Repeating the mixing study with 4 parts patient sample and 1 part normal pooled plasma may increase the chance of detecting a weak inhibitor.

Notes: q Be careful when thawing the pooled plasma because prolonged incubation at 37°C

Notes: q Be careful when thawing the pooled plasma because prolonged incubation at 37°C will selectively decrease Factor V, prolonging the results and making interpretation of the 1: 1 mix test results difficult. q The pooled normal plasma is stable for ~2 hours at room temperature. Initial test results for the pooled normal plasma must be within the reference range or the mix should be repeated with a fresh aliquot of pooled normal plasma.

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