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)

We evaluated the effect of r-hirudin on an experimental model of disseminated intravascular coagulation (DIC) in rabbits, through the continuous infusion of 100 microg/kg/hr of Escherichia coli endotoxin for a period of 6 hours. r-Hirudin (0.05, 0.3, and 0.6 mg/kg/hr) as treatment, or saline solution as placebo, were administered simultaneously with endotoxin. Severe DIC in the endotoxin control group was shown by impairment in hemostatic parameters, kidney fibrin deposition, and a high mortality rate. Medium and high doses of r-hirudin led to an improvement in such DIC-related parameters as platelet numbers and fibrinogen and protein C concentrations. High-dose r-hirudin also reduced consumption of antithrombin III (ATIII). All doses of r-hirudin prevented decreases in tissue plasminogen activator (t-PA) and reduced the increase in plasminogen activator inhibitor-1 (PAI-1) activity observed at 2 hours after endotoxin administration. A significant reduction in kidney fibrin deposition was seen in medium- and high-dose r-hirudin groups. Additionally, the mortality rate in rabbits receiving medium- and high-dose r-hirudin was 10%, and that in rabbits receiving low-dose r-hirudin was 20%, as compared with a mortality rate of 70% in the control group. Protein C activity was significantly lower (p < 0.001) in nonsurviving rabbits. Moreover, there was a strong positive correlation (r = 0.68, p < 0.001) between protein C consumption and kidney fibrin deposition. We conclude that r-hirudin can be a useful drug in the clinical treatment of DIC.
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PMID:Endotoxin-induced disseminated intravascular coagulation in rabbits: effect of recombinant hirudin on hemostatic parameters, fibrin deposits, and mortality. 945 30

Protein C, Protein S and Antithrombin III were screened in one hundred patients admitted for abruptio placentae and one hundred women who delivered normally in Dakar university hospital. We found a reduction of Protein S at normal delivery which is linked to hypercoagulation activity during this process. PC and PS were significantly decreased during abruptio placentae in relation with the disseminated intravascular coagulation which was found in our study. We recommend to include these tests to explore aetiologies of abruptio placentae and to confirm their congenital deficit two months after delivery.
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PMID:[Protein C, protein S and antithrombin III at normal delivery and during abruptio placentae]. 1079 88

Recently, basic and clinical advances have provided insights into the molecular events that link inflammation with blood coagulation and thrombosis. At least in cell culture, the inflammatory cytokines, especially tumour necrosis factor alpha (TNF) and interleukin 1-beta (IL-1), are major mediators that can elicit changes in cell phenotype. With respect to coagulation, one of the clot-promoting and one of the inhibitory pathways seem especially prone to modulation by these cytokines. Whenever Tissue Factor contacts the blood, coagulation is initiated rapidly. These cytokines can elicit Tissue Factor production on endothelium and monocytes. Thus, the cytokines elaborate Tissue Factor formation intravascularly. This contrasts with the normal situation in which Tissue Factor is located exclusively in the extravascular space, largely on fibroblasts, where it is expressed constitutively. Furthermore, cytokines, especially interleukin 6 (IL-6), can stimulate new platelet formation, and the new platelets responding to IL-6 have increased sensitivity to thrombin activation and increased procoagulant activity. Regulating the clotting process are a large number of anticoagulant and fibrinolytic mechanisms. The three major anticoagulant mechanisms appear to involve antithrombin-heparin, Tissue Factor pathway inhibitor (TFPI) and the Protein C pathway. Of these, the Protein C pathway appears to be the primary target for cytokine action. The Protein C pathway is initiated when thrombin binds to thrombomodulin (TM). TM is expressed constitutively on endothelium. In tissue culture, TNF, IL-1 or endotoxin lead to a slow loss of TM and endothelial cell Protein C receptor (EPCR) from the cell surface. In addition, Protein S levels decrease in patients with disseminated intravascular coagulation (DIC). Taken together, these results suggest that cytokines should elicit massive thrombotic responses when administered systemically. At near toxic levels, TNF fails to elicit an overt DIC or thrombotic response in patients, although sensitive markers of coagulation do detect changes in coagulation in response to TNF. In baboons, very high levels of TNF also fail to elicit fibrinogen or platelet consumption. However, if the Protein C pathway is blocked, these cytokines can elicit either DIC or deep-vein thrombosis, depending on the conditions. Thrombus formation is potently potentiated by impeding flow and/or by catheterization. DIC is facilitated by providing membrane surfaces, possibly mimicking complement mediated platelet activation/damage that occurs in shock. Thus, available evidence suggests important roles for inflammatory cytokines in DIC and thrombosis, but they seem insufficient by themselves to elicit overt thrombotic responses without secondary stimuli. Current data suggest that anti-inflammatory drugs are a viable candidate to blocking DIC or thrombosis without impairing the haemostatic balance.
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PMID:Possible involvement of cytokines in diffuse intravascular coagulation and thrombosis. 1085 74

Protein C is the zymogen of an anticoagulant serine protease and is converted to its active form (activated protein C: APC) by thrombin in the presence of thrombomodulin. APC plays an important role in regulating coagulation and fibrinolysis by inactivating not only blood coagulation factors Va and VIIIa but also type-1 plasminogen activator inhibitor (PAI-1). The aim of the present study was to examine the effect of a human APC product (designated as CTC-111), compared with that of heparin, on the disseminated intravascular coagulation (DIC) induced by lipopolysaccharide (LPS) in rats. LPS (1 mg/kg/h) infusion was performed through a femoral vein for 4 h. One-fifth amount of the total dosage of CTC-111 or heparin was injected into the other femoral vein, followed by a 4-h infusion of the remainder. Both CTC-111 (10,000-100,000 U/kg) and heparin (400-800 IU/kg) inhibited the decrease in platelet count and fibrinogen level equally. The prolonged activated partial thromboplastin time and prothrombin time observed in DIC rats were further elongated in both CTC-111- and heparin-treated rats. But, this prolongation was less in CTC-111-treated rats than in the heparin-treated ones. Heparin inhibited the increase in fibrin and fibrinogen degradation products more prominently than CTC-111. On the other hand, CTC-111 strongly inhibited the increase in PAI-1 activity but heparin did not. These results suggest that CTC-111 may enhance fibrinolysis through its direct inhibitory effect on PAI-1. The parameters for liver or renal damage, i.e., plasma glutamic-oxaloacetic transaminase (GOT), glutamic-pyruvic transaminase (GPT), creatinine (Cre) and blood urea nitrogen (BUN), were significantly increased by LPS infusion. Both CTC-111 (100,000 U/kg) and heparin (800 IU/kg) decreased the increase in GOT and GPT levels significantly, whereas neither affected the increase in Cre or BUN. From these results, the activation of the blood coagulation system might partially contribute to the progression of liver damage caused by LPS, and might be less involved in the progression of renal damage in this model. In conclusion, CTC-111 showed both anticoagulant and profibrinolytic activity in the LPS-induced DIC model without excessive prolongation of coagulation time. From these results, CTC-111 is expected to be a useful remedy for DIC without the risk of bleeding.
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PMID:Effect of activated human protein C on disseminated intravascular coagulation induced by lipopolysaccharide in rats. 1105 Jun 97

Protein C (PC) is an important anticoagulant protein in blood and converted to its active form, activated protein C (APC), by thrombin bound with thrombomodulin. APC exhibits an anticoagulant effect by the inactivation of FV a and FVIII a. In addition, APC exerts a profibrinolytic effect by inactivation of PAI-1 and inhibition of TAFI activation. APC is strongly anti-thrombotic because of its anticoagulant and profibrinolytic effect. APC has gamma-carboxyglutamic acid residues that bind to acidic phospholipids expressed on activated platelet or injured endothelial cells. Thus APC works only at the site where clots are formed and has a weak effect in primary hemostasis; this means that the use of APC is expected not to have any hemorrhagic risk. In both DIC animal models and clinical studies, we confirmed safer amelioration by APC than heparin. Recently, a specific receptor for PC/APC was found on endothelial cell membrane and anti-inflammatory effects of APC were also reported. Thus APC is thought to play an important regulatory role in blood coagulation, fibrinolysis and inflammation, especially in thrombotic diseases.
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PMID:[Anti-thrombotic effect of activated protein C]. 1121 79

Protein C (PC) is a vitamin K-dependent plasma protein that is structurally similar to other coagulation factors such as prothrombin and Factor X. PC is converted to its active anticoagulant form by a thrombin-thrombomodulin complex on the surface of capillary endothelial cells. Activated PC (APC) prevents the formation of blood clots by specifically inactivating factors Va and VIIIa in the clotting cascade. Both acquired and hereditary forms of PC deficiency exist, with hereditary further categorised as heterozygous, homozygous as well as doubly heterozygous. Patients suffering from symptomatic heterozygous PC deficiency present with purpura fulminans, venous thrombosis and/or pulmonary embolism. Homozygous PC deficiency is usually associated with the development of severe and often fatal, purpura fulminans and disseminated intravascular coagulation (DIC) during the neonatal period. Various therapeutic options have been described for long-term management of severe heterozygous and homozygous PC deficiencies. For the treatment of heterozygous PC deficiency, oral anticoagulation with a coumarin derivative or heparin therapy remains standard therapy. Homozygous patients may be treated with fresh frozen plasma (FFP) and iv. PC concentrate or coumarin derivatives. Other therapeutic options for the treatment of hereditary PC deficiency include the use of low-molecular weight heparin (LMWH), steroids and liver transplantation. Maintenance of a symptom-free life depends on response to therapy. Patients responding well to treatment can expect normalisation of haemostasis as well as improvement of microcirculation and resolution of purpura fulminans.
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PMID:Clinical management of protein C deficiency. 1133 97

Protein C (PC) is the zymogen form of a serine protease, activated protein C (APC), a naturally occurring anticoagulant. In control of the coagulation of blood, APC functions by attenuating thrombin formation. It serves this role through inactivation, by limited proteolysis, of two important cofactors for overall clot formation, one of which, Factor Va (FVa), stimulates prothrombin activation, and another, Factor VIIIa (FVIIIa), enhances activation of coagulation Factor X (FX). In maintaining the fluidity of blood, APC also indirectly functions in fibrinolysis, in one manner by directly inactivating an inhibitor of plasminogen activation, plasminogen activation inhibitor-1 (PAI-1), and in another manner via its role in attenuating thrombin production, with the resulting effect of limiting production of another thrombin-dependent fibrinolytic inhibitor, thrombin activatable fibrinolysis inhibitor (TAFI). PC, and other components of the PC anticoagulant pathway, e.g., protein S (PS), thrombomodulin (Tm), and endothelial cell protein C receptor (EPCR), also can serve as anti-inflammatory mediators, through a number of different thrombin-dependent and thrombin-independent mechanisms. A large number of symptomatic and asymptomatic mutations occur in PC in humans, which express a variety of phenotypes. Generation and characterization of a murine model of a total PC gene inactivation has demonstrated that while an untreated total PC deficiency results in neonatal death through DIC-related abnormalities, a valuable resource is now available to study phenotypes of less severe deficiencies of this protein. Such studies will lead to advances in an understanding of the relative role of this protein system in the various pathways in which it has an influence.
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PMID:Gene targeting in hemostasis: protein C. 1143 41

Acquired factor VII (FVII) deficiency in the absence of vitamin K deficiency, oral anticoagulant therapy, synthetic liver dysfunction, or DIC is rare, with only a handful of cases thus far reported. In the period from 1990 to 1996 we identified eight patients with acquired FVII deficiency, all of whom presented with prolongation of the prothrombin time (PT) in the first 2 weeks following stem cell transplantation (SCT). The mean plasma FVII clotting activity (FVII:c) was 22% (range 8-35%) with an approximately equivalent reduction in FVII antigen (FVII:Ag) level. Mean plasma levels of fibrinogen and factors II, V, IX, and X were normal. Protein C activity was significantly depressed in only one of the three patients in whom it was measured. Several patients experienced bleeding complications, and hemorrhage directly accounted for death in two cases. Veno-occlusive disease of the liver developed in three patients. We conclude that FVII deficiency should be considered in the differential diagnosis of prolonged PT in patients who have recently undergone SCT. The mechanism of this acquired deficiency state remains to be defined.
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PMID:Acquired factor VII deficiency in hematopoietic stem cell transplant recipients. 1191 30

Purpura fulminans is a rare but dramatic disease which occurs most commonly during or after an infection. It is characterized by extensive involvement of the skin and extremities and involvement of visceral organs. Purpura fulminans, when occurring after a viral infection such as varicella, is usually characterized by purpuric lesions involving the trunk, usually with sparing of the visceral organs. In this report we describe a child with purpura fulminans due to a transient protein C deficiency as a complication of chickenpox infection. A seven-year-old girl developed bruise-like lesions on her extremities on the fifth day after eruption of varicella exanthem. She had no previous history of bleeding tendency or thrombosis. Family history was also negative. On the seventh day of her illness she was admitted to Marmara University Hospital with widespread echymotic an partially crusted chickenpox lesions. CBC, urinalysis and blood chemistries were within normal limits. She had a prolonged aPT and apt with low serum fibrinogen and high D-dimers suggestive disseminated intravascular coagulation (DIC). Protein C activity was low. Punch skin biopsy was consistent with purpura fulminans. She was treated with heparin and fresh frozen plasma which helped her to recover clinically as well as hematologically. She was discharged with still low protein C activity that returned to normal by the next follow-up visit.
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PMID:A case of purpura fulminans secondary to transient protein C deficiency as a complication of chickenpox infection. 1271 82

Changes of hemostatic markers in 226 patients with disseminated intravascular coagulation (DIC) and hematopoietic disorders were examined after treatment of DIC. The changes in prothrombin time (PT) ratio, fibrinogen, fibrin and fibrinogen degradation products (FDP), antithrombin, and protein C, thrombin-antithrombin complex (TAT), plasmin-plasmin inhibitor complex (PPIC), and soluble fibrin monomer complex (SFMC) in all patients with DIC were significant during the clinical course of DIC, but those of D-dimer, thrombomodulin (TM), tissue factor (TF), and tissue factor pathway inhibitor (TFPI) were not. Activated partial thromboplastin time (aPTT) and PT were significantly longer in the poor response group than in good response group. Plasma levels of FDP, TAT, PPIC, SFMC, TM, and DIC score were significantly higher in poor response group than in good response. Protein C and antithrombin levels were significantly lower in poor response group than in good response group. The changes of PT ratio, fibrinogen, FDP, DIC score, antithrombin, plasmin inhibitor, and protein C were significant in the good response group, but these levels were not significant in the poor response group. The changes in plasma TAT and SFMC levels were significant in the good response group but were not in poor response group. The changes in D-dimer, TM, TF, or TFPI were not significant in both groups. These findings suggest that anticoagulant agents should be administered at levels below TAT 40 ng/mL or SFMC 300 microgram/mL in patients with DIC and hematopoietic disorders.
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PMID:Good or poor responses of hemostatic molecular markers in patients with hematopoietic disorders after treatment of disseminated intravascular coagulation. 1264 27


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