EC:3.4.24.55 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.55 (PTR)
433 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A flexible loading dose schedule for inducing anticoagulation with warfarin was assessed in 31 consecutive patients. 55% reached the therapeutic range (prothrombin ratio between 2 and 4:1) by Day 2 (40 hours after the first dose) and this figure rose to 77% on Day 3 and to 87% on Day 4. All patients had a PTR between 1.7 and 4.2 on Day 5. Patients with evidence of cardiac failure and abnormal liver function, and those taking medications known to interact with warfarin required lower doses and ran a higher PTR when compared with the total group of patients. This schedule offers a useful means of safely and rapidly inducing warfarin therapy in all patients.
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PMID:A flexible loading dose schedule for warfarin therapy. 332 67

The prothrombin time is the coagulation time of citrated plasma in the presence of calcium and a tissue extract, thromboplastin, added in excess. The prothrombin time was historically the first method of evaluation and control of oral anticoagulation. Over the years, the different thromboplastins have changed, diversified, so affecting the result of the prothrombin ration established from the prothrombin time and a reference curve. In 1985, the International Committee on Thrombosis and Haemostasis requested that all the losts of thromboplastin have their international sensitivity index (ISI) indicated. This allowed uniformity of the results by the introduction of the INR (International Normalized Ratio) calculated by the formula: INR = (PTR)ISI, the PTR or prothrombin time ratio corresponding to the patients' prothrombin time divided by that of reference control plasma. It is, in fact, impossible to interpret the results of a prothrombin ration without knowing their expression in INR. The consequences of the absence of uniformity in the control of anticoagulant therapy are important and serious. The uncertainty concerning the degree of anticoagulation inherent in the use of a single prothrombin ratio may be the source of bleeding or thromboembolic complications. Curiously, the system based on the INR is neither generalised, nearly 10 years after its recommendation, nor adopted by the majority of practitioners. However, the stakes are high because the principal complication of oral anticoagulants remains bleeding, including the dramatic strokes. Moreover, the global mortality due to haemorrhagic complications is about 0.1 to 0.5% for treatments of short duration and much higher in prolonged therapy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Current biological surveillance of oral anticoagulant treatment]. 764 54

The factor VII sensitivity of prothrombin time (PT) in dogs was tested using five different PT reagents and a commercial PT variant. The five PT reagents were used according to manufacturers' instructions (standard test, PT([ST])) and also using a modified test instruction (modified test, PT([MT])). Plasma samples with defined factor VII levels (10-100%) were prepared by adding increasing quantities of canine factor VII deficient plasma to the pooled plasma of healthy dogs. Statistical comparison based on prothrombin time ratios (PTR = PT sample: PT measured for 100% factor VII activity level) revealed significant differences between different reagents for PT([ST]) and also for PT([MT]). Factor VII activity at which PT was prolonged to the upper limit of the reference values (FVII([X(0.975)])) was 16-39% (PT([ST])) and 23-35% (PT([MT])). Factor VII sensitivity measured by PTR and also by FVII([X(0.975)]) values, was higher in four of five PT reagents using PT([MT]) when compared with PT([ST]). The results of this study indicate the importance of selecting a sensitive reagent and method for PT measurement and for careful interpretation of PT test results using canine plasma.
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PMID:Sensitivity of different prothrombin time assays to factor VII deficiency in canine plasma. 1278 20