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:C0149871 (deep vein thrombosis)
12,364 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

6 patients with deep vein thrombosis triggered by drug therapy, that is oral contraceptives in 5 and the anticonvulsant tranexamic acid in 1, are described. These cases were among 40 symptomatic patients out of a total group of 81 with congenital coagulation inhibitor defects studied over 10 years at the Institute of Medical Semiotics, Padua, Italy. The 5 women with deep vein thrombosis ranged in age from 20-34, and had typically taken oral contraceptives containing 35 mcg ethinyl estradiol in combined or phasic preparations, for 1 to 8 cycles. One women, however, had been prescribed sequential pills containing 50 mcg mestranol. Another had taken oral contraceptives with impunity for 3 years, but developed deep vein thrombosis after taking tranexamic acid for 10 days. All recovered after heparin or oral anticoagulant therapy, except a 21 year old whose condition evolved into complete ileo-caval obstruction up to the renal veins, and was treated with urokinase. the congenital defects involved were 3 probable heterozygous true deficiencies of antithrombin III (low ATIII antigen and activity); a decreased protein C antigen to factor X antigen ratio; a heparin cofactor II deficiency; and a type I protein S deficiency (low free protein S, with normal total protein S and normal levels of C4B-bp.) While 5 of these 6 women had family histories of thromboembolic disease, the drug was prescribed without knowing that they were heterozygous for a coagulation inhibitor deficiency. The incidence of drug-induced thromboembolism was low in this series overall, where most of the events were triggered by surgery or trauma.
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PMID:The role of drugs, particularly oral contraceptives, in triggering thrombosis in congenital defects of coagulation inhibitors: a study of six patients. 178 39

Anticoagulation is being used increasingly in the critical care areas. Thrombolytic therapy is now commonly used in emergency departments and coronary care units for treatment of AMI. Heparin therapy for unstable angina and for a 48 to 72 hour period following thrombolytic therapy for AMI is becoming commonplace. Beginning warfarin therapy concomitantly with heparin to decrease the total duration of heparin and the duration of hospital stay for DVT therapy is encouraged. The use of low-dose warfarin to prevent DVT in hip surgery, improve catheter patency, and prevent catheter-related subclavian thrombosis is increasing. Along with the increased use of anticoagulation must come a greater appreciation of the complications associated with the agents used, and of how to prevent or treat the hemorrhagic or thrombotic morbidity that may arise. Acute hemorrhage with thrombolytic agents must be recognized and the immediate implementation of conservative and aggressive measures begun. Heparin-induced thrombocytopenia with thrombosis is an often-unrecognized problem that may occur in 1% to 2% of heparin recipients and result in limb amputations. A delayed onset (6-10 days) requires frequent platelet counts for early diagnosis and treatment. The resurgence of warfarin use for prevention of cardiovascular and cerebrovascular disorders demands observation for skin necrosis from protein C and S inhibition. Early recognition of symptoms and syndromes associated with organ system hemorrhage in patients receiving chronic anticoagulation is imperative. The use of antagonists, such as protamine sulfate for heparin, vitamin K1 for warfarin, and antifibrinolytic drugs for thrombolytic agents, may be necessary in treating hemorrhagic events. However, their use may worsen the thromboembolic event initially treated.
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PMID:Toxic effects of drugs used in the ICU. Anticoagulants and thrombolytics. Risks and benefits. 186 82

Protein C deficiency is a known underlying risk factor for thromboembolic disease. Most commonly it presents as thrombophlebitis, deep venous thrombosis or pulmonary embolism. Less common presentations are becoming increasingly recognized now that assays for protein C are more widely available. We present two cases of mesenteric venous thrombosis who were found to have protein C deficiency.
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PMID:Mesenteric venous thrombosis due to protein C deficiency. 193 24

Experimental models of deep venous thrombosis, heretofore, have not been available for laboratory studies. This investigation establishes a novel model of venous thrombosis by inhibiting the protein C system combined with venous stasis and subtle venous injury. Ten adolescent baboons were studied in pairs, with one animal receiving saline solution (B2, B4, B6, B8, B10) and one being exposed to thrombogenic reagents (B1, B3, B5, B7, B9). These reagents represented a combination of a monoclonal antibody (HPC4) to protein C, 1 to 4 mg/kg administered over 5 minutes, and tumor necrosis factor administered over 3 minutes at a dose of 150 micrograms/kg through a catheter placed into the left superficial femoral vein with distal ligation. To encourage stasis, a pediatric size blood pressure cuff was inflated to 40 mm Hg on the right thigh for 50 minutes of every hour during the first experimental day (day 1) in B5 to B10. The animals were observed for a 6-hour period on day 1 and then for an 11- to 15-day period until sacrifice. Hemodynamic and hematologic parameters were recorded along with duplex imaging of the iliac veins and inferior vena cava on a daily basis. Venography was performed on day 1, day 4, and the day of sacrifice. At sacrifice the entire iliac and vena caval system was carefully dissected, opened, and photographed. Experimental animals given the HPC4 and tumor necrosis factor developed left iliac vein thrombosis extending into the inferior vena cava. Duplex imaging, venography, and autopsy revealed that control animals receiving saline solution never developed comparable thrombus. Experimental subjects exhibited thrombus on duplex imaging by day 4 (B1), day 3 (B3), day 2 (B5), 120 minutes (B7), and 360 minutes (B9) after receiving HPC4 and tumor necrosis factor. Venograms performed on day 1 exhibited thrombus in B5, B7, and B9. The extent of thrombus, the timing of its occurrence, and its effect on the animals' left leg followed a dose-dependent relationship for the animals in which the occlusive blood pressure cuff was used. Significantly greater declines in blood pressure, white blood cell count, and platelet count were found in affected animals given HPC4 and tumor necrosis factor reagents as compared to control subjects. All affected animals demonstrated the appearance of fibrin split products and a markedly prolonged prothrombin time. This investigation, for the first time, establishes a reproducible model of deep venous thrombosis involving inhibition of protein C that will facilitate further laboratory studies on venous thrombosis.
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PMID:Deep venous thrombosis in the baboon: an experimental model. 194 66

Defibrotide, a deoxypolyribonuclide, has been found to modulate endothelial cell function causing increase in t-PA and decrease in PAI levels and also increase in PGI2 production. In addition, it increases platelet c-AMP levels and decreases MDA and TXB2 formation in human. Defibrotide inhibits platelet aggregate formation in vitro experiments as well as end-to-end anostomosis in rats. So, defibrotide inhibits the activation of platelets. Besides an increase of protein C and S levels a synergic action of heparin was observed in animal experiments. A strong antithrombotic effect has been observed in animal models. The drug has a beneficial effect in the cases of DVT, POVD, stroke and thromboembolism. Through its action we may say that the drug acts in a novel fashion in contrast to the other drugs used in this area. Defibrotide is a single-stranded polydeoxyribonucleotide obtained from deoxyribonucleic acid of mammalian lungs by controlled depolimerization. Since 1981 in our laboratory and in the clinical department we have been investigating a newly developed agent defibrotide in vitro experiments, animal experiments, and also its clinical pharmacology and clinical application. Some of our findings are already published and compared with literature (40, 43, 46). Because of the limited space we are not going to review the literature in detail but we are going to summarize our observations on this compound in the following order. I--in vitro experiments, II--Animal experiments, III--clinical pharmacology in human.
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PMID:The pharmacology and clinical pharmacology of defibrotide: a new profibrinolytic, antithrombotic and anti-platelet substance. 210 24

We have identified an inhibitor of the protein C anticoagulant pathway in the plasma of a patient with systemic lupus erythematosus and a history of recurrent deep vein thrombosis, fetal wastage, and seizures. The patient's plasma contained anticardiolipin antibodies as well as a weak lupus anticoagulant. Examination of this patient's plasma revealed normal levels of protein C and protein S antigen, normal levels of functional protein C, as well as essentially normal levels of every blood coagulation factor. In a modified prothrombin time assay, the activated protein C-mediated prolongation of the clotting time observed in normal plasma was not observed in this patient's plasma. Gel permeation chromatography of the patient's plasma revealed that the inhibitory material was a high molecular weight protein that coeluted with the IgM peak. The inhibitor did not appear to circulate as a complex with protein C, since the inhibitor could easily be separated from protein C during fractionation procedures, and did not interfere with the activation of protein C in plasma as assessed by a functional amidolytic assay. Our findings suggest that the recurrent thrombotic episodes observed in this patient may have occurred as a result of the patient's antiphospholipid antibody neutralizing specific phospholipids essential for the full expression of the anticoagulant activity of activated protein C.
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PMID:Impairment of the protein C anticoagulant pathway in a patient with systemic lupus erythematosus, anticardiolipin antibodies and thrombosis. 210 91

We examined a variety of hemostatic functions in a subset of patients participating in a multicenter trial of rt-PA in the treatment of DVT. There were declines in systemic levels of plasminogen and alpha 2-antiplasmin at 24 hours following therapy. Additionally, levels of protein C antigen and protein C activity were also seen to decrease over the same time course. We propose that therapy with rt-PA has more systemic effects than previously thought and suggest that the effect on protein C may have some role in reocclusion following thrombolysis.
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PMID:Plasminogen, alpha 2-antiplasmin, and protein C decline following infusions of recombinant tissue plasminogen activator. 212 22

Lipodermatosclerosis of the lower extremity, with or without ulceration, is a common manifestation of severe venous disease and the result of sustained venous hypertension. The latter is generally a sequela of deep vein thrombosis. Factors that enhance clot formation or impair fibrinolysis contribute to the pathogenesis of venous disease. It is already established that faulty fibrinolysis may play a pathogenic role in patients with venous disease. We examined the possibility that patients with venous disease have abnormally low plasma levels of proteins C and S, two proteins whose deficiencies have been reported to cause an increased frequency of thromboembolic disease. Using immunologic and functional assays for plasma proteins C and S, we found that 4 (21%) of 19 patients with lipodermatosclerosis and leg ulcers had abnormally low levels of protein C or protein S. One of 7 patients with lipodermatosclerosis without ulceration had a profoundly depressed level of protein C and a history of cerebral stroke at a young age. Plasma levels of protein C were normal in five patients with arterial insufficiency severe enough to cause leg ulceration. We conclude that abnormally low plasma levels of proteins C and S may be found in patients with lipodermatosclerosis and venous ulceration. As with the abnormally low fibrinolytic activity in these patients, our findings indicate a possible propensity for increased thrombotic disease.
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PMID:Protein C and protein S plasma levels in patients with lipodermatosclerosis and venous ulceration. 203 43

Inherited deficiencies of protein S, an inhibitor of the coagulation system, are now recognized as occurring at least twice as frequently as antithrombin III deficiency in patients with venous thrombosis. Protein S is present in plasma in a complexed form, which is inactive, and in a free or functional form. Free protein S combines with activated protein C to inhibit factors V and VIII. This report describes the evaluation of a family with recurrent deep venous thrombosis and superficial thrombophlebitis. Levels of antithrombin III and protein C as well as plasminogen were normal. The levels of total protein S, which includes the value for the free and complexed forms of protein S, were also normal. However, the free protein S levels were greatly reduced in all symptomatic members who were studied. This report illustrates the importance of obtaining measurement of free protein S levels in patients who are suspected of having inherited venous thrombotic disorders.
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PMID:Free protein S deficiency in a family with venous thrombosis. 214 6

The protein C inhibitor (PCI) concentration and other parameters of the protein C pathway were studied in 19 patients with symptomatic acute deep vein thrombosis before and during the first 5 days of heparin treatment. The mean levels of PCI antigen and activity decreased rapidly and significantly during the first day of heparin therapy from 83 and 84% to 60 and 59% of the pooled normal human plasma (p less than 0.01), respectively, and to 56 and 54% after 5 days of treatment (p less than 0.01). In contrast, antithrombin III decreased progressively 25% during 5 days of heparin treatment. Protein C antigen and activity and total protein S remained unchanged during heparin treatment. Free protein S was decreased before heparin treatment (83%, p less than 0.05) and increased to normal values after 5 days of treatment. C4b-binding protein was significantly increased before and during heparin treatment (p less than 0.01). Activated protein C (APC) complexed to its two major plasma inhibitors, PCI and alpha 1-antitrypsin (alpha 1AT) were measured by specific ELISA's. Before treatment, 18 of the 19 patients studied had increased levels of APC:alpha 1AT complexes with a mean value of 27 +/- 22 ng/ml (range, 6-86 ng/ml) compared to normal values (8 +/- 2 ng/ml) and 12 of the patients also had detectable APC:PCI complex levels with a mean value of 11 +/- 17 ng/ml (range, 5-68 ng/ml). Both APC:inhibitor complexes decreased significantly during heparin treatment.
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PMID:Protein C inhibitor and other components of the protein C pathway in patients with acute deep vein thrombosis during heparin treatment. 216 56


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