Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.5.1.1 (asparaginase)
 2,695 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Protein C is, after activation by thrombin, a potent inhibitor of blood coagulation. An isolated deficiency of protein C increases the risk of thrombosis. The two forms of protein C deficiency, the heterozygous and the homozygous deficiency state, have different clinical features. Patients with heterozygous protein C deficiency are at a high risk to develop venous thrombosis and pulmonary embolism. In newborns with homozygous protein C deficiency with very low protein C levels (1%) a purpura fulminans like syndrome was observed. Heparin and coumarin derivatives are effective drugs in heterozygous protein C deficiency, homozygous patients may be treated either by replacement of protein C or coumarin derivatives. Decreased protein C levels were observed in various other diseases: Chronic and acute liver disease, disseminated intravascular coagulation, malignancy, postoperatively and during treatment with asparaginase. The role of protein C in these diseases to trigger thrombosis is not yet established.
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PMID:Clinical relevance of protein C. 352 11

In order to establish the frequency and clinical complications of DIC during remission induction of untreated adults with acute lymphoblastic leukemia, we retrospectively reviewed the records of 125 consecutive patients treated with vincristine, doxorubicin, and dexamethasone but without L-asparaginase. DIC, defined as hypofibrinogenemia in the presence of elevated fibrin-fibrinogen degradation products, was detected at presentation in 10% of 99 and during remission induction in 67% of 58 patients who were screened for DIC. Elevated levels of D-dimers (DD) were seen in all eight patients with DIC in whom they were measured. All cases of DIC were diagnosed by the ninth day of induction and were associated with infection in 15 of 39 patients. DIC did not cause any deaths but was temporally associated with two thromboses and four hemorrhages in six of the 16 patients with fibrinogen levels < 100 mg/dl but with only one hemorrhage among 23 patients (4%) with fibrinogen levels > 100 mg/dl (P < 0.01). Heparin was not administered to any patient, whereas platelets were administered to all to maintain platelet counts > 20 x 10(9)/l. Fresh frozen plasma (FFP) and/or cryoprecipitate were administered 26 patients resulting in a contemporaneous correction of the coagulopathy and in control of hemorrhages and thromboses. We conclude that DIC is rare at presentation but common during induction of adult ALL and is frequently associated with clinical complications when fibrinogen levels are < 100 mg/dl. We recommend daily testing of fibrinogen, PT, and DD during the first 10 days of induction, and for the patients with DIC platelet transfusions to maintain counts > 20 x 10(9)/l, and when fibrinogen levels fall below 100 mg/dl transfusions of FFP and/or cryoprecipitate. Additional studies are needed to determine the optimal management of the DIC during remission induction of adult acute lymphoblastic leukemia.
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PMID:Disseminated intravascular coagulation in adult acute lymphoblastic leukemia: frequent complications with fibrinogen levels less than 100 mg/dl. 890 74

Forty-one consecutive children with acute lymphoblastic leukemia (ALL) received prophylaxis therapy with the low molecular weight heparin (LMWH) enoxaparin during L-asparaginase treatment. Enoxaparin was given every 24 h subcutaneously at a median dose of 0.84 mg/kg per day (range, 0.45-1.33 mg/kg per day) starting at the first dose of L-asparaginase until 1 week after the last dose. Molecular analysis for thrombophilic polymorphisms documented prothrombin G20210A mutation in 3/27 (11%), homozygosity for MTHFR C677T mutation in 5/27 (18.5%, and heterozygosity for factor V Leiden mutation in 5/27 (18.5%) children. There were no thrombotic events during 76 courses of L-asparaginase in 41 patients who had received enoxaparin. One patient suffered brain infarct 7 days after enoxaparin was stopped. There were no bleeding episodes. In a historical control group of 50 ALL children who had not received prophylactic enoxaparin during L-asparaginase treatment, two had thromboembolisms (one deep vein thrombosis and one pulmonary embolism). Enoxaparin is safe and seems to be effective in prevention of thromboembolism in ALL patients during L-asparaginase therapy. This study provides pilot data for a future randomized trial of the use of LMWH during ALL therapy for the prevention of asparaginase-associated thrombotic events.
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PMID:Prophylactic therapy with enoxaparin during L-asparaginase treatment in children with acute lymphoblastic leukemia. 1150 79

Heparin resistance can be defined as high doses of unfractionated heparin (UFH), greater than 35,000 IU/day, required to raise the activated partial thromboplastin time (aPTT) and activated coagulation time (ACT) to within therapeutically desired ranges or the impossibility of doing so. The most common pathology responsible is the deficiency of anti-thrombin III (ATIII) deficiency. Other clinically relevant conditions that can present with heparin resistance are congenital deficiencies; use of high doses of heparin during extracorporeal circulation, use of asparaginase therapy and disseminated intravascular coagulation (DIC). Most of these conditions effect the ATIII levels. Patients are typically identified in an acute phase, when determination of the cause of resistance is challenging. We present a case where a patient presented with suspected heparin resistance in an acute phase of sickness, where timely intervention was able to prevent a potentially fatal situation. Abbreviations: Neuroendocrine tumors (NETs), World health Organization (WHO), Radiation therapy (RT).
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PMID:To be or not to be a case of heparin resistance. 2991 55

Patients undergoing treatment of acute lymphoblastic leukemia (ALL) are at risk for thrombosis, caused in part by the use of l-asparaginase (L-ASP). Antithrombin (AT) replacement has been suggested to prevent venous thromboembolism (VTE) and thus may increase exposure to ASP. We report herein the results of the prophylactic replacement strategy in the pediatrics-inspired prospective GRAALL-2005 study. Between 2006 and 2014, 784 adult patients with newly diagnosed Philadelphia- ALL were included. The incidence rate of VTE was 16%, with 69% of cases occurring during induction therapy. Most patients received AT supplementation (87%). After excluding patients who did not receive L-ASP or who developed thrombosis before L-ASP, AT supplementation did not have a significant impact on VTE. Administration of fibrinogen concentrates was associated with an increased risk of VTE, whereas transfusion of fresh frozen plasma had no effect. Heparin prophylaxis was associated with an increased risk of VTE. Prophylactic measures were not associated with an increased risk of grade 3 to 4 bleeding complications. The rate of VTE recurrence after L-ASP reintroduction was 3% (1 of 34). In ALL patients receiving L-ASP therapy, the use of fibrinogen concentrates may increase the risk of thrombosis and should be restricted to rare patients with hypofibrinogenemia-induced hemorrhage. VTE developed despite extensive AT supplementation, which suggests the need for additional prophylactic measures. Although this large descriptive study was not powered to demonstrate the efficacy of these prophylactic measures, it provides important insight to guide future trial design. This trial was registered at www.clinicaltrials.gov as #NCT00327678.
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PMID:Thromboembolism prophylaxis in adult patients with acute lymphoblastic leukemia treated in the GRAALL-2005 study. 3232 Nov 72