Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Plasma or serum extrinsic pathway inhibitor (EPI) activity was measured in 24 patients with disseminated intravascular coagulation (DIC) and in 23 patients with severe hepatocellular disease. EPI was measured as activity in a test sample that inhibited factor VIIa/tissue factor (TF)-catalyzed activation of 3H-factor IX (activation peptide release) in the presence of factor X. Of the 24 patients with DIC, 13 had sepsis and five had metastatic carcinoma, disorders in which tissue factor is believed to initiate DIC. EPI activity ranged from 68% to 300% (mean 134% +/- 50%). Serial measurements in nine patients failed to show depletion of EPI activity coincident with worsening DIC. DIC induced by tissue factor or other activating materials may progress despite normal EPI levels. In the patients with liver disease, of whom 15 had decompensated chronic hepatocellular disease (two fatal cases) and eight had acute fulminant liver failure (seven fatal cases), plasma or serum EPI activity varied from less than 20% to 194%. Values were distributed in a bimodal fashion. EPI activity could not be correlated with either the etiology of the liver disease or the degree of prolongation of the prothrombin time. Patients with chronic hepatocellular disease who survived had normal or elevated EPI activity. Patients with fatal hepatic dysfunction had low, normal, or high values for EPI activity. This must mean that secretion of EPI from cells other than hepatocytes can maintain normal plasma EPI levels.
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PMID:Human plasma extrinsic pathway inhibitor activity: II. Plasma levels in disseminated intravascular coagulation and hepatocellular disease. 278 83

Pseudomonas putrefaciens is an unusual cause of human disease. Since 1978 only five cases of bacteremia due to this organism have been reported. Within 12 recent months four cases of bacteremia due to P. putrefaciens were seen - two occurred in patients with chronic infections of a lower extremity, one in a patient with neutropenia, and one in a patient with fulminant septicemia and disseminated intravascular coagulation. Two of the patients had prostheses; in neither case did prosthetic infection or prosthetic failure occur. Two syndromes of bacteremic infection with P. putrefaciens are suggested. One syndrome is associated with chronic infection of a lower extremity, is fairly well tolerated, and responds to appropriate antimicrobial agents. The other syndrome is more fulminant and may be associated with severe underlying debility, liver disease, and malignancy. It is not yet known whether this is a meaningful distinction. The significance of the recent increase is the isolation of this organism is not clear at present.
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PMID:Pseudomonas putrefaciens bacteremia. 291

Plasma D-dimer was measured and compared with serum fibrinogen/fibrin degradation product levels (FDPs) in patients with disseminated intravascular coagulation (DIC) and other conditions associated with a hypercoagulable state. D-dimer (N less than 200 ng/ml) was elevated in all 43 patients with DIC, in 48 of 59 patients with liver disease, in 22 of 27 patients with acute leukaemia at presentation, in 17 of 23 patients with malignant disease, in 29 of 39 women in the third trimester of a complicated pregnancy, in 17 of 18 patients with deep venous thrombosis and in only four of 27 patients with acute myocardial infarction. There was a significant correlation between plasma D-dimer and serum FDP levels (P less than 0.01) as follows; DIC: r = 0.58, liver disease: r = 0.57, acute leukaemia: r = 0.84, malignancy: r = 0.87. The frequent elevation of D-dimer observed in liver disease, acute leukaemia, malignancy and complicated pregnancy indicates that a hypercoagulable state is a common occurrence in these conditions although in liver disease elevated levels resulting from a failure of normal clearance mechanisms cannot be excluded. The close relationship between D-dimer and FDP levels suggests that serum FDPs predominantly arise from the interaction of plasmin with crosslinked fibrin rather than with fibrinogen in the conditions in which these were compared.
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PMID:Plasma D-dimer levels and their relationship to serum fibrinogen/fibrin degradation products in hypercoagulable states. 291 30

Plasma and serum from patients with liver disease and elevated fibrin(ogen) degradation product (FDP) levels as measured by latex agglutination were analyzed by immunoblotting to characterize the FDP in these patients. An antihuman fibrinogen antibody was used that recognizes fibrinogen, fibrin monomer, soluble high molecular weight fibrinogen and fibrin polymers, as well as high molecular weight cross-linked degradation fragments, and the smaller fragments X, Y, D-dimer, D, and E. The analytic procedures were validated with plasma and serum from patients known to have intravascular fibrinolysis associated either with disseminated intravascular coagulation (DIC) or with thrombolytic therapy. The samples demonstrated a spectrum of plasmin degradation fragments on the immunoblots. Twenty-eight of 35 patients with liver disease (80%) had no evidence of plasmin degradation fragments in their plasma or serum. The cause of the elevated FDP levels as measured by latex agglutination was thought to be fibrin monomer or unclottable fibrinogen that was retained in the sera of some of these patients. Seven patients (20%) were found to have circulating plasmin degradation fragments. In addition to liver disease, however, these patients all had an illness (sepsis, shock, and pancreatic carcinoma) independently associated with intravascular coagulation and fibrinolysis. Three patients who lacked plasmin fragments also had pancreatic carcinoma or sepsis. The two groups of liver disease patients could not be clearly differentiated on the basis of clinical or laboratory evidence, but the blotting procedure proved to be a useful discriminator.
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PMID:Analysis of elevated fibrin(ogen) degradation product levels in patients with liver disease. 293 48

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 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

The fibrinolytic response to disseminated intravascular coagulation (DIC) has been considered important both in preventing thrombosis and in contributing to hemorrhage. Detailed studies of fibrinolysis in DIC are lacking, however. We measured tissue plasminogen activator (t-PA) antigen and activity levels in 74 patients with DIC, 53 hospitalized patients with similar illnesses without DIC, and 36 healthy normal subjects, using sensitive, specific assays. Mean t-PA antigen levels were significantly higher in patients with DIC than in either hospitalized control subjects or normal individuals in most disease categories studied. Highest t-PA antigen levels were seen in patients with liver disease, but patients with DIC without liver disease also had significantly elevated t-PA antigen. Detectable free t-PA activity was infrequently seen in patients with DIC, however. No correlation was found with either thrombotic or hemorrhagic complications and levels of t-PA antigen or activity in DIC, with the possible exception of increased t-PA activity in two patients with intracranial hemorrhage. Bleeding complications were seen almost exclusively in patients with underlying anatomic lesions, and thrombotic complications were usually associated with other known predisposing factors. We conclude that t-PA antigen is usually elevated in DIC, but free t-PA activity is infrequently seen, most likely because of increased levels of t-PA inhibitor. The presence or absence of free t-PA activity does not appear to predict which patients with DIC will develop hemorrhage or thrombosis.
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PMID:Tissue plasminogen activator antigen and activity in disseminated intravascular coagulation: clinicopathologic correlations. 311 52

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 C (PC) activities measured by two thrombin-based assays have been compared with those obtained by two assays based on snake venom activation of plasma PC followed by measurement of both the amidolytic and anticoagulant activities of activated PC. This study indicates that snake venom assays gave results similar to those of the thrombin assays in 20 healthy subjects, in 16 patients with DIC and in 15 patients with congenital PC deficiency. There was, however, some degree of misclassification of normals and congenitally-deficient patients, with only the clotting snake venom assay resulting in no misclassifications. In 15 patients stabilized on warfarin treatment and in 17 with liver disease, the clotting snake venom assay gave significantly lower values than the other assays, so that it might prove to be more sensitive than the other assays to these defects.
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PMID:Functional assays of protein C: comparison of two snake-venom assays with two thrombin assays. 321 14

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


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