Thrombosis research
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Thrombosis research · Jan 2007
Thrombelastography monitoring of resistance to enoxaparin anticoagulation in thrombophilic pregnancy patients.
The anticoagulant effect of enoxaparin is readily observed by Thrombelastography (TEG), particularly on the reaction time (R) to form a clot, and is completely reversed by heparinase. In this study, recalcified citrated whole blood with heparinase (CNHR) and without (CNR), along with TEG R time, was used to derive a delta R (CNR-CNHR). This delta R (DeltaR) was then used to measure enoxaparin anticoagulation, which was correlated by linear regression (r(2)=0.806) with plasma anti-Xa in 48 thrombophilic pregnancy patients. ⋯ A large variation in slope was observed for both thrombophilic (>7 fold, 217 to 1,588 s DeltaR/unit anti-Xa) and normal (>3 fold, 788 to 2,758) pregnancy subjects. The average slope for the thrombophilic group (710 s DeltaR/unit anti-Xa) was significantly (P=0.002) lower than the normal pregnancy group (1,354 s), indicating resistance to enoxaparin anticoagulation in the thrombophilic group. This technique may help gauge the appropriate dose of enoxaparin for each individual, check for residual anticoagulation before invasive procedures, and perhaps help screen for thrombophilic subjects.
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Thrombosis research · Jan 2007
Cinnamaldehyde reduction of platelet aggregation and thrombosis in rodents.
Cinnamaldehyde (CA) has been reported to inhibit in vitro aggregation in human and rabbit platelets; however, little is known about the antithrombotic activities of CA in vivo. ⋯ The results demonstrate that CA may be a promising antithrombotic agent, and its antithrombotic activity may be due to anti-platelet aggregation activity in vitro and in vivo.
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Thrombosis research · Jan 2006
Randomized Controlled TrialIndividualized dosing regimen for prothrombin complex concentrate more effective than standard treatment in the reversal of oral anticoagulant therapy: an open, prospective randomized controlled trial.
Prothrombin Complex Concentrate (PCC) is indicated for the acute reversal of oral anticoagulation therapy. To compare the efficacy of a "standard" dosage of 20 ml PCC equivalent to about 500 IU factor IX (group A), and an "individualized" dosage based on a target-INR of 2.1 or 1.5, the initial-INR and the patient's body weight (group B), we performed an open, prospective, randomized, controlled trial. The in vivo response and in vivo recovery of factor II, VII, IX and X in these patients on oral anticoagulation was determined. ⋯ So, we conclude that for the acute reversal of oral anticoagulant therapy, an "individualized" dosage regimen of PCC based on the target-INR, the initial-INR, and body weight of the patient, is significantly more effective in reaching the target-INR than a "standard" dosage. The in vivo response and in vivo recovery found in this study was higher then in patients with isolated factor deficiencies. This suggests that the pharmacokinetics in patients on oral anticoagulants may be different.