Thromb Haemostasis
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Randomized Controlled Trial Clinical Trial
Aprotinin reduces blood loss after cardiopulmonary bypass by direct inhibition of plasmin.
The effectiveness and mechanism of aprotinin reduced bleeding after cardiopulmonary bypass surgery was studied in a double blind randomised study of 106 patients undergoing valve replacement surgery. Aprotinin therapy was associated with significant reduction in perioperative bleeding and postoperative blood transfusion requirements. Although initially tissue plasminogen activator (t-PA) activity was lower in the aprotinin than placebo group, as surgery proceeded this difference was reversed due to less plasminogen activator inhibitor-1 release in the aprotinin group. ⋯ Furthermore, similar perioperative reduction of plasminogen levels in aprotinin and placebo groups indicated a similar degree of conversion of plasminogen to plasmin. However, less plasmin bound with alpha 2-antiplasmin in the plasma in the aprotinin group as it was already complexed with aprotinin where it remained protected from the natural inhibitor on the intact fibrin surface. The reduced fibrinolytic activity of the aprotinin group was thus brought about by the complexing of aprotinin with the plasmin which was bound to the fibrin surface.
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Thromboelastography (TEG) has been used after cardiopulmonary bypass (CPB) to diagnose excessive postoperative hemorrhage. Conventional TEG during CPB is not possible due to the sensitivity of the TEG to even small amounts of heparin, which produces a nondiagnostic tracing. The purpose of this study was to compare heparin neutralization using heparinase or protamine in TEG blood samples obtained during CPB. ⋯ Tissue plasminogen activator activity and antigen were measured on a subset of 32 patients. We found: 1) heparinase neutralized at least 10 IU/ml heparin while 1.6 ug/ml protamine neutralized up to 7 IU/ml heparin, 2) in samples with complete heparin neutralization by both methods, there was no significant difference in the R values, 3) while there was good correlation for other TEG parameters between heparinase and protamine treated samples, heparinase treatment produced shorter K values and higher angle, MA and A60, 4) while fibrinolysis was detected using both methods, heparinase treatment suppressed fibrinolysis in the TEG in both samples from patients and after in vitro addition of tissue plasminogen activator, 5) TEG was not a sensitive indicator of t-PA activity, detecting only 21% of samples with increased t-PA activity during bypass, and 5) heparinase was at least 100 times more expensive than protamine. We conclude that while both heparinase and protamine can be used to neutralize heparin in TEG samples obtained during CPB, protamine neutralization is more sensitive to fibrinolysis and less expensive, but the protamine dose must be carefully selected to match the heparin level used at individual institutions.
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In order to improve the use of information contained in the medical history and physical examination in patients with suspected pulmonary embolism and a non-high probability ventilation-perfusion scan, we assessed whether a simple, quantitative decision rule could be derived for the diagnosis or exclusion of pulmonary embolism. ⋯ We derived a simple decision rule containing 5 easily interpretable variables for the patient population specified. The optimal use of the rule appears to be in the exclusion of pulmonary embolism. Prospective validation of this rule is indicated to confirm its clinical utility.