11/14/2023 0 Comments Istat act kaolinMonitoring of heparin-induced anticoagulation with kaolin-activated clotting time in cardiac surgical patients treated with aprotinin. An evaluation of two activated clotting time monitors during cardiac surgery. Guidelines for monitoring heparin by the activated clotting time when aprotinin is used during cardiopulmonary bypass. A semiautomated instrument for the activated coagulation time (ACT). Progress report: the activated coagulation time of whole blood (ACT). Activated coagulation time as screening test. Activated coagulation time of whole blood. It is possible to undertake an ACT on anticoagulated plasma which is re-calcified to induce clotting.ġ. It is less sensitive than the standard ACT to the effects of hypothermia and haemodilution and shows a linear response to heparin with an upper limit of 6 IU/ml. If all the XII is converted to XIIa then any prolongation for the ACT above baseline will indicate heparin anticoagulation (there are other reasons why the MAX-ACT may be prolonged – see above). The MAX-ACT uses a ‘cocktail’ of activators (celite, kaolin and glass) to maximally convert all the FXII to XIIa. However, it is not sensitive enough to act for routine monitoring of LMWHs. Whilst the ACT is prolonged in patients receiving LMWH the Xa-ACT is more sensitive and correlates with in vitro and i n vivo plasma anti-Xa assays. The Xa-ACT was designed for point-of-care testing (POCT) to monitor anticoagulation with Low Molecular Weight Heparin (LMWH) in patients undergoing haemodialysis. The Xa-ACT is a modification of the ACT in which the activator is replaced by bovine factor Xa. Modifications of the ACTĪ number of modifications of the ACT have been published and these are summarised below: Test The ACT will be prolonged in cases of thrombocytopaenia when the platelet count is 480 seconds), depending on the method, representing a mean heparin level of approximately 4-5 units/mL.įor other indications, the ACT target is typically lower than it is for cardiopulmonary bypass. The ACT is influenced by a number of variables including: Variable The ACT is less precise than the APTT and lacks high correlation with the APTT or with heparin anti-Xa levels. During ECMO, heparin is titrated to maintain the ACT between 220 and 260s. During cardiopulmonary bypass, heparin is titrated to maintain an ACT of between 400 and 600s. In a non-anticoagulated patient, the ACT is in the region of 107s ± 13s. Various machines have been developed which automate this process. The type of activator affects the clotting time. Methodįresh whole blood is added to a tube containing a negatively charged 'activator' and this results in the formation of a clot. The test is performed immediately on whole blood and the samples cannot be stored. clot formation is recorded electronically – the principle, however, remains the same. The test is now more commonly performed using a fully automated technique in which the end point i.e. The time to clot formation was known as the ACT. Originally the tube was placed in a water bath at 37☌ for 60s, removed and tilted slowly every 5s until a clot had formed. ![]() The test is dependent upon the presence of endogenous platelets as a source of Phospholipid. Although originally proposal as a routine pre-operative screening test - it is now used almost exclusively for monitoring patients on CPB.įresh, whole blood is added to a tube containing a surface activator - this results in the activation of coagulation via the Intrinsic pathway. The activated clotting time first came into clinical use in the mid-1970s to guide the administration and reversal of heparin during cardiopulmonary bypass procedures. This is covered in more detail in the 2019 EACTS/EACTA/EBCP guidelines on cardiopulmonary bypass in adult cardiac surgery patients - see References. ![]() The ACT is a useful monitor of unfractionated heparin when heparin is the ONLY variable, but when other variables are altered, it becomes non-specific to heparin. In most cases of CPB – a dose of UFH in the region of 300-400 IU/kg is administered prior to CPB with additional boluses given as required to maintain the ACT >400s. The minimum safe ACT is in the region of 300 seconds based upon observations that above this level blood clots rarely occur in the extracorporeal circuit. ![]() In the early days of cardio-pulmonary bypass (CPB) the dose of Heparin used to prevent clotting in the extra-corporeal circuit was established empirically – the dose being the minimum in which clotting in the extracorporeal circuit did not occur. The Activated Clotting Time (ACT) was first described by Hattersley in 1966 and is essentially a point of care test (POCT) of coagulation that is used to monitor the anticoagulant effect of unfractionated heparin (UFH) in patients on cardio-pulmonary bypass, on ECMO, undergoing percutaneous transluminal coronary angioplasty, on haemofiltration or haemodialysis.
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