UMLS:C0012739 - FACTA Search

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Query: UMLS:C0012739 (disseminated intravascular coagulation)
8,673 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Heparin cofactor II (HC II) was measured by a chromogenic activity assay in normal preterm infants (gestational age, 28-36 weeks; n = 17; 29% +/- 11.5 [mean +/- 1 SD], range 11-51), normal full-term infants (n = 18; 49% +/- 6.6 [mean +/- 1 SD], range 36-58), and normal adults (n = 38; 101% +/- 14 [mean +/- 1 SD], range 73-130). Normal children attained adult levels at approximately 5 to 7 months of age. The lower values in preterm and term infants most likely reflect immature liver function. Neither adults and children with a history of thrombosis with prior negative evaluation (n = 74), patients with documented protein C and protein S deficiency (n = 4), nor sick infants without evidence of consumptive coagulopathy (n = 15) had significantly lower levels of HC II activity. Infants with disseminated intravascular coagulation (n = 2) had strikingly lower levels of HC II activity.
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PMID:Heparin cofactor II in adults and infants with thrombosis and DIC. 252 33

Plasma levels of protein S (PS) antigen, both total and free fractions, were measured together with C4b-binding protein (C4bp) and protein C (PC) antigen in 39 patients with disseminated intravascular coagulation (DIC), 34 with liver disease, 17 with collagen disease, 17 with diabetes mellitus, and 51 under stabilized warfarin treatment. In patients with DIC, mean concentrations of total PS and free PS were normal, while PC was reduced and C4bp were elevated. Total PS, free PS, C4bp and PC were all decreased in liver disease, elevated in diabetes mellitus, and normal in collagen disease. In warfarin-treated patients, total PS, free PS and PC were moderately decreased, but the decrease in C4bp was minimal. The concentration of PS correlated positively with PC in liver disease, diabetes mellitus, and during oral anticoagulation, but did not in DIC. These results indicate that PS and PC behave similarly when liver synthetic function is principally affected, but in contrast to PC, PS is hardly consumed during intravascular coagulation.
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PMID:Plasma protein S in disseminated intravascular coagulation, liver disease, collagen disease, diabetes mellitus, and under oral anticoagulant therapy. 252 31

We performed a blood coagulation study during the course of disseminated intravascular coagulation (DIC) in 34 patients with hematological malignancies. Risk factors of DIC such as increasing tumor mass, anti-tumor therapy and severe infections were frequently observed at onset of DIC, and influenced the prognosis of DIC. Before the onset of DIC, the DIC score and FDP value were slightly elevated, and they were significantly increased after the onset of DIC. Before the onset of DIC, the level of fibrinogen was significantly increased but it was decreased after the onset of DIC. These hemostatic abnormalities continued for about 2 weeks. Patients with DIC showing prolonged APTT and PT had a poor prognosis. The abnormalities of PT, FDP, fibrinogen, DIC score, FDP-D-dimer and fibrinopeptide A were significantly greater in DIC than in Pre-DIC defined as the period one week before the onset of DIC. FDP-D-dimer was also higher in Pre-DIC patients than in those without DIC. Although protein S and C 4 b binding protein were not decreased in DIC or Pre-DIC, Protein C activity decreased during the course of DIC, suggesting that FDP-D-dimer and Protein C activity were useful for diagnosis of Pre-DIC and DIC.
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PMID:[Hemostatic changes before and after the onset of disseminated intravascular coagulation]. 259 41

Hemostatic changes were evaluated in ten patients with acute lymphoblastic leukemia and lymphoma who received chemotherapy with L-asparaginase, vincristine, and prednisolone for 1 week. Following treatment, prothrombin time and activated partial thromboplastin time were significantly prolonged, while a marked decrease in fibrinogen levels was observed. The values for cross-linked fibrin degradation products, however, remained within normal limits during treatment, which excluded the possibility of disseminated intravascular coagulation. The concentrations of coagulation inhibitors (antithrombin III, protein C, and protein S), plasminogen, and alpha 2 antiplasmin also significantly decreased; however, levels of both tissue-type plasminogen activator and plasminogen activator inhibitor, which are synthesized in endothelial cells, increased during the treatment. Although a decrease was observed in concentrations of many coagulation factors, including subunits A and B of factor XIII, the activity and antigenicity of factor VII significantly increased following the treatment. From this study, we concluded that these hemostatic abnormalities caused by the administration of L-asparaginase produced a labile condition that easily inclines to bleeding or thrombosis.
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PMID:Changes in hemostatic and fibrinolytic proteins in patients receiving L-asparaginase therapy. 275

Proteins C and S are two vitamin K-dependent plasma proteins that work in concert as a natural anticoagulant system. Activated protein C is the proteolytic component of the complex and protein S serves as an activated protein C binding protein that is essential for assembly of the anticoagulant complex on cell surfaces. The anticoagulant activity is expressed through the selective inactivation of Factors Va and VIIIa. Many patients deficient in proteins C and S have been described and have an associated thrombotic tendency, but not all heterozygous protein C and S deficient individuals experience thrombotic complications. Multiple mechanisms and/or drugs can lead to acquired deficiencies of these proteins: oral anticoagulation, liver disease, DIC and in the case of protein S, lupus erythematosus, nephrotic syndrome, pregnancy and certain hormones. The anticoagulant activity of protein C decreases rapidly after administration of warfarin (i.e., with a time course similar to Factor VII). This rapid decrease may lead to a transient imbalance and contribute to coumarin induced skin necrosis. Protein S antigen levels do not decrease as rapidly, but protein S functional levels are often low in patients with an acute thrombus. The discrepancy between antigen and function results from elevations in C4b-binding protein, which complexes reversibly with protein S. Unlike free protein S, the complex does not function in the anticoagulant pathway. The available information all suggest that deficiency of protein C and protein S should be considered a risk factor contributing to recurrent thrombotic disease and that the function of these proteins is altered by many common clinical conditions which have associated an increased risk of thrombosis.
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PMID:Anticoagulation proteins C and S. 295 34

Protein C (PC), a 62,000-molecular weight vitamin K-dependent serine protease zymogen, is a natural anticoagulant that occurs in plasma at 4 mg/L. Activated PC inactivates clotting factors V and VIII and is also profibrinolytic. Activated PC is enhanced in its anticoagulant activity by protein S (PS), another vitamin K-dependent protein. Protein S is found in platelets and endothelial cells as well as in plasma. Inherited PC deficiency and PS deficiency have been associated with venous thrombosis. Both heterozygous PC and PS deficiency appear to be inherited in an autosomal dominant manner in some families. Homozygous PC deficiency presents as neonatal purpura fulminans and results in massive venous thrombosis of the skin and other organs within the first few days of life. Symptomatic heterozygous PC deficiency and PS deficiency have been treated with oral anticoagulants, successfully minimizing recurrence of thrombosis. Coumarin-induced skin necrosis, a rare complication of oral anticoagulant therapy usually seen within three to five days of initiation of therapy, has also been associated with heterozygous PC deficiency. The short half-life of PC (six to eight hours) compared with most of the vitamin K-dependent clotting factors (greater than 30 hours) is the probable reason for this paradoxical response to oral anticoagulants in some PC-deficient patients, since a transient imbalance of procoagulant and anticoagulant factors may exist during initiation of oral anticoagulant therapy. Acquired deficiency of the PC pathway occurs in disseminated intravascular coagulation and possibly other diseases such as those associated with a lupus anticoagulant.
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PMID:Coumarin necrosis, neonatal purpura fulminans, and protein C deficiency. 296 8

Protein C is a potent inhibitor of blood coagulation, and, in addition, appears to be a profibrinolytic agent. In a first step, protein C must be converted to a serine protease. This activation is catalyzed by a complex formed between thrombin and thrombomodulin, an endothelial cell surface protein. Activated protein C exhibits its anticoagulant activity through the proteolytic inactivation of two blood coagulation cofactors, factors Va and VIIIa. This reaction requires phospholipids, originating from platelets or endothelial cells, and a cofactor protein, protein S. Protein S enhances the binding of activated protein C to phospholipids. In addition, activated protein C stimulates fibrinolysis, through the inactivation of the tissue plasminogen activator (tPA) inhibitor. An isolated constitutional, quantitative or qualitative, protein C or protein S deficiency increases the risk of thrombosis, the clinical features are different in the rare cases of homozygous protein C deficiency (neonatal purpura fulminans) or in the heterozygous patients (recurrent venous thrombosis in young adults). Acquired deficiency in protein C and S had been observed in liver disease, during vitamin K antagonists or L-Asparaginase treatment, and in disseminated intravascular coagulation.
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PMID:[Protein C, protein S]. 303 76

Protein S, an important cofactor of activated protein C, and C4b-binding protein were purified from human plasma. Specific antibodies against the purified proteins were raised in rabbits and used for the development of immunologic assays for these proteins in plasma: an immunoradiometric assay for protein S (which measures both free protein S and protein S complexed with C4b-binding protein) and an electroimmunoassay for C4b-binding protein. Ranges for the concentrations of these proteins were established in healthy volunteers and patients using oral anticoagulant therapy. A slight decrease in protein S antigen was observed in patients with liver disease (0.78 +/- 0.25 U/ml); no significant decrease in protein S was observed in patients with DIC (0.95 +/- 0.25 U/ml). Criteria were developed for the laboratory diagnosis of an isolated protein S deficiency.
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PMID:Determination of plasma protein S--the protein cofactor of activated protein C. 316 Dec 6

Protein S is a vitamin K-dependent plasma protein which serves as the cofactor for activated protein C. Protein S circulates in both an active, free form and in an inactive complex with C4b-binding protein. To elucidate the role of protein S in disease states and during oral anticoagulation, we developed a functional assay for protein S that permits evaluation of the distribution of protein S between free and bound forms and permits determination of the specific activity of the free protein S. In liver disease, free protein S antigen is moderately reduced and the free protein S has significantly reduced specific activity. In disseminated intravascular coagulation, reduced protein S activity occurs due to a redistribution of protein S to the inactive bound form. During warfarin anticoagulation, reduction of free protein S antigen and the appearance of forms with abnormal electrophoretic mobility significantly decrease protein S activity. After the initiation of warfarin, the apparent half-life of protein S is 42.5 h. In patients with thromboembolic disease, transient protein S deficiency occurs due to redistribution to the complexed form. Caution should be exercised in diagnosing protein S deficiency in such patients by use of functional assays.
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PMID:Acquired deficiencies of protein S. Protein S activity during oral anticoagulation, in liver disease, and in disseminated intravascular coagulation. 328 13

Protein C and protein S serve as natural anticoagulants. Deficiencies of these proteins are often associated with recurrent deep vein thrombosis and coumarin induced skin necrosis. These two proteins function by selectively inactivating factors Va and VIIIa, two of the "cofactors" of blood coagulation. Hence, inhibition of coagulation by this pathway complements the better known inhibition mediated by the antithrombin III-heparin system. These observations suggest that protein C and/or activated protein C may prove useful in controlling thrombosis and/or DIC. We have developed a Ca2+ dependent monoclonal antibody which allows the rapid isolation of human protein C. This rapid isolation has allowed us to demonstrate that activated protein C can protect baboons from the lethal effects of E. coli/endotoxin and that protein C supplementation can minimize fibrinogen consumption following tissue factor infusion into dogs.
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PMID:Protein C, isolation and potential use in prevention of thrombosis. 330 68

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