UMLS:C0020473 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020473 (hyperlipidemia)
15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tissue factor pathway inhibitor (TFPI), a protease inhibitor that is present in free and lipoprotein-associated forms in plasma and that also occurs as an endothelial cell-associated form, can inhibit the initial reactions of the tissue factor-mediated coagulation pathway. Although a positive correlation between plasma TFPI activity and cholesterol concentration in human plasma has been demonstrated, levels of the various forms of TFPI, ie, the LDL/VLDL-associated form, the HDL-associated form, and the free form, have not yet been completely determined in hyperlipidemia. We therefore established a method for the measurement of each of these forms of TFPI in plasma by gel filtration of plasma in buffer containing 1 mol/L NaCl. The recovery of TFPI activity in the free form was markedly greater as assessed by the new method than the recovery reported when other methods have been used. We employed the new method to analyze TFPI activity in 19 hyperlipidemic patients and compared the results with those for normal control subjects. The level of LDL/VLDL-associated TFPI in hyperlipidemic patients was significantly increased compared with control subjects' levels (0.383 +/- 0.112 versus 0.237 +/- 0.077 U/mL), whereas the level of the free form of TFPI in hyperlipidemic patients was significantly decreased (0.381 +/- 0.132 versus 0.495 +/- 0.106 U/mL), the former being positively correlated with cholesterol level, while the latter was negatively correlated.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tissue factor pathway inhibitor activity in human plasma. Measurement of lipoprotein-associated and free forms in hyperlipidemia. 774 62

Tissue factor pathway inhibitor (TFPI) activity was quantified in two cohorts of young male post-infarction patients and in population-based control subjects to explore the relationships between TFPI activity and plasma lipoproteins and to address the issue of coordinate regulation of factor VII and TFPI in hyperlipidaemia and premature coronary heart disease (CHD). Participants were investigated in the fasting state and after an oral fat load. Basal TFPI activity and factor VII antigen (VIIag) levels were found to be increased in the patients (TFPI activity 1.25 +/- 0.23 vs 1.17 +/- 0.20 U/ml, p < 0.05; VIIag 537.7 +/- 127.7 vs 479.4 +/- 93.4 ng/ml, p < 0.001). The parallel increase was accounted for by patients with hypertriglyceridaemic lipoprotein phenotypes. In contrast, the level of activated factor VII (VIIa) neither differed significantly between patients and controls, nor between patients with different lipoprotein phenotypes. The elevated TFPI activity in the patients was closely associated with the plasma level of dense low density lipoprotein (LDL) particles (r = 0.46, p < 0.001) and with the plasma concentration of the small, dense high density lipoprotein (HDL) subspecies HDL3b (r = 0.34, p < 0.01).
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PMID:Relationship of tissue factor pathway inhibitor activity to plasma lipoproteins and myocardial infarction at a young age. 797 36

Tissue factor pathway inhibitor (TFPI), a kunitztype inhibitor of the extrinsic coagulation pathway, factor VII coagulant (FVIIc), FVIIa, and the fibrinolytic factors plasminogen activator inhibitor-1 (PA1-1) and tissue plasminogen activator (TPA) have been studied in various hyperlipidemias. Compared with a normal lipidic group, mean TFPI activity was 70% higher (P < .001) and 36% higher (P < .001) in type IIa and IIb hyperlipidemias, respectively, and was lower by 13% in type IV hyperlipidemia (P = .05). TFPI was correlated with LDL cholesterol (P < .001), total cholesterol (P < .001), HDL cholesterol (P < .01), apolipoproteins (apo) AI (P < .001) and B (P < .001) and lipoprotein a (P < .01). TFPI was negatively correlated with the triglyceride level (P < .05); the correlation was dependent on LDL cholesterol and HDL cholesterol levels, which were decreased in type IV hyperlipidemia. FVIIc activity (P < .001) was increased by 30% in both type IV and type IIb hyperlipidemia and was correlated with triglyceride levels. FVIIa was not significantly increased in any group compared with control group. FVIIc was correlated with triglyceride level (P < .001), while FVIIa was not. Interestingly, FVIIa was correlated with FVIIc (r = .5, P < .001) in the control group as well as in the hyperlipidemic groups (r = .32, P < .01). These results favor the hypothesis that higher FVIIc concentrations in hyperlipidemic patients are likely due to enhancement of synthesis of FVII and that a part of this FVII circulates in an activated chemical form. Compared with the control group, PAI-1 activity was twofold higher (P < .08) in type IIa hyperlipidemia, threefold higher (P < .001) in type IIb hyperlipidemia, and fourfold higher in type IV hyperlipidemia (P < .001). PAI-1 activity correlated with triglyceride levels (P < .001), apoB levels (P < .001) and total cholesterol levels (P < .05). These correlations were dependent on apoB and probably reflect the correlation between PAI-1 and VLDL. In contrast, TPA level was normal in the different hyperlipidemias. No correlation was found between TFPI, FVIIc, and PAI-1. Variation of TFPI activity appears to be related to the variations of its main lipoprotein carriers: LDL, HDL, and Lp (a). The association in hypertriglycemic patients of hypercoagulability (increased FVIIc and decreased TFPI) and hypofibrinolysis (increased PAI-1) may explain thrombosis predisposition of some of these patients. However, it would be interesting to study the increased levels of endothelium-derived TFPI in plasma induced by the injection of heparin.
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PMID:Levels of factor VIIc associated with decreased tissue factor pathway inhibitor and increased plasminogen activator inhibitor-1 in dyslipidemias. 854 30

We measured plasma levels of tissue factor (TF), total tissue factor pathway inhibitor (TFPI) and free TFPI antigen in patients with diabetes mellitus (DM), hyperlipidemia and disseminated intravascular coagulation (DIC). The mean TF, total TFPI and free TFPI antigen concentrations were significantly higher in patients with DM than in controls and the plasma TF concentration was significantly higher in patients with retinopathy or nephropathy than in DM with no complications. The mean TF, total TFPI and free TFPI antigen concentrations were significantly higher in patients with hyperlipidemia than in controls. There was a significant positive correlation between levels of total TFPI and total cholesterol. In patients with hyperlipidemia, the level of total TFPI was significantly decreased compared to base line level by cholesterol lowering drug, however, free TFPI concentration did not change by cholesterol lowering drug. The TF and total TFPI concentrations were significantly higher in patients with DIC than in controls.
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PMID:[Analysis of behaviors of plasma tissue factor and tissue factor pathway inhibitor in patients with various diseases]. 891 65

Favourable effects of n-3 fatty acids on the atherogenic risk profile were recently demonstrated in subjects with combined (type IIb) hyperlipidaemia, not responding to a therapeutic diet. Re-examination of a previous patient material was performed to assess the influence of n-3 fatty acids on homocysteine and several coagulation factors. Subjects were randomly allocated to receive either a concentrated compound of 85% eicosapentaenoic acid (EPA)/docosahexaenoic acid (DHA) (n = 28), or corn oil (n = 29), in a daily dose of 4g for 12 weeks. The intervention was double-blind. Homocysteine remained unchanged in both groups after 12-week treatment. N-3 fatty acids supplementation did not affect the levels of fibrinogen, coagulation factor VII or tissue factor pathway inhibitor (TFPI), while plasminogen activator inhibitor (PAI) increased significantly (Student's t-test; p <0.05). Total blood platelets were significantly reduced in subjects receiving n-3 fatty acids (Student's t-test; p <0.05), whereas bleeding times increased non-significantly.
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PMID:Atherothrombogenic risk modulation by n-3 fatty acids was not associated with changes in homocysteine in subjects with combined hyperlipidaemia. 1023 39

Monocytes are potent regulators of blood coagulation through the expression of tissue factor (TF) on stimulation and of tissue factor pathway inhibitor (TFPI), a selective inhibitor of TF pathway. As hyperlipidemia can modify some monocyte functions, we compared the TF and TFPI expression by circulating monocytes and the plasma TFPI levels between 65 healthy normolipemic controls and 38 nontreated hyperlipemic patients. TF and TFPI relationships with plasma lipoproteins are also examined. TF and TFPI expression were evaluated in peripheral mononuclear cells after isolation from blood by density gradient centrifugation and after short culture with or without lipopolysaccharide (LPS). TF and TFPI activity and antigen were measured in mononuclear cell lysates using amidolytic assay and enzyme-linked immunosorbent assay, respectively. TFPI activity and antigen were measured in plasma using the same methods. Plasma factor VII (FVII) activity and antigen were also determined. LPS-stimulated monocyte TF activity and antigen were lower in hyperlipidemic patients than in controls (0.0001<p<0.03). This decrease of monocyte TF expression in hyperlipidemic patients was not related to an increase of monocyte TFPI. Monocyte TF activity was negatively correlated to atherogenic fractions and positively correlated to protective fractions, specially after ex vivo LPS stimulation. Increased TFPI and FVII plasma levels were found in hyperlipidemic patients compared to controls. These results indicate an impairment of TF production by circulating monocytes from hyperlipidemic subjects, which is linked to the increase of atherogenic lipoprotein fractions. Further studies are required to elucidate the mechanism of this inhibition.
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PMID:Monocyte tissue factor response is decreased in patients with hyperlipidemia. 1059 31

Patients with combined hyperlipemia have lipid abnormalities associated with an increased tendency to develop atherosclerosis and thrombosis. This tendency may be accelerated during postprandial hyperlipemia. In the present double-blind parallel study, 41 patients with combined hyperlipemia and serum triacylglycerols between 2.0 and 15.0 mmol/L and serum total cholesterol >5.3 mmol/L at the end of a 3-month dietary run-in period were treated with simvastatin at 20 mg/d for at least 10 weeks; patients were then randomized into 2 groups receiving simvastatin+omega-3 fatty acids at 3.36 g/d or placebo (corn oil) for an additional 5 weeks. Hemostatic variables that have been associated with increased thrombotic tendency were evaluated with subjects in the fasting state and during postprandial hyperlipemia before and after combined treatment. Supplementation of omega-3 fatty acid reduced tissue factor pathway inhibitor antigen (P<0.05) in the fasting state, reduced the degree of postprandial hyperlipemia (P<0.005), and reduced activated factor VII concentration appearing during postprandial hyperlipemia. In conclusion, omega-3 fatty acids given in addition to simvastatin to patients with combined hyperlipemia reduced the free tissue factor pathway inhibitor fraction in the fasting state and inhibited the activation of factor VII occurring during postprandial lipemia, thus representing a potential beneficial effect on the hemostatic risk profile in this patient group.
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PMID:Effect of omega-3 fatty acids and simvastatin on hemostatic risk factors and postprandial hyperlipemia in patients with combined hyperlipemia. 1063 27

To evaluate the association between haemostatic parameters and increased risk of myocardial infarction (MI) at a young age, we measured fibrinogen, factor VII, antithrombin III, protein C, protein S, tissue factor (TF), free form tissue factor pathway inhibitor (TFPI), plasminogen, alpha2-antiplasmin, tissue plasminogen activator (tPA), plasminogen activator inhibitor-I (PAI-I), and lipoprotein (a) in 140 young men with MI before age 45 and 150 age-matched healthy men. TF, TF/TFPI ratio, PAI-I, PAI-I/tPA ratio, plasminogen, and lipoprotein (a) in young MI patients were all significantly higher than controls, while TFPI, antithrombin II, and tPA were significantly lower (P <0.001 of each). Significant determinants of MI risk were PAI-I/tPA ratio (R2 = 0.300, P <0.001), TF/TFPI ratio (R2 = 0.049, P <0.001), antithrombin III (R2 = 0.034, P <0.001), hyperlipidaemia (R2 = 0.019, P = 0.004), diabetes (R2 = 0.014, P = 0.015), lipoprotein (a) (R2 = 0.012, P = 0.023), alpha2-antiplasmin (R2= 0.014, P = 0.012), and protein C (R2= 0.012, P = 0.018). We conclude that the imbalances of PAI-I/tPA and TF/TFPI are significantly associated with MI at a young age, perhaps mediated via impaired fibrinolytic activity.
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PMID:Imbalance of plasminogen activator inhibitor-I/ tissue plasminogen activator and tissue factor/tissue factor pathway inhibitor in young Japanese men with myocardial infarction. 1181 7

This study assessed markers of vascular endothelial cell dysfunction associated with early atherosclerosis in carotid arteries. We measured the plasma levels of free-form tissue factor pathway inhibitor (free TFPI), plasminogen activator inhibitor-1 (PAI-1), and von Willebrand factor (vWF) in 522 adults without cardiovascular disease enrolled in the Suita Study. For each sex, we analyzed the association of the degree of intimal-medial thickness (IMT) with hemostatic markers using logistic regression analysis considering potential confounding risk factors, including age, body mass index, lifestyle (current smoking and drinking), illness (diabetes mellitus and hyperlipidemia), systolic blood pressure, and antihypertensive drug use. The age-adjusted levels of free TFPI and PAI-1 were positively and independently associated with the degree of IMT for men. Even after adjustment for all confounding factors, the level of PAI-1 was positively associated with the degree of IMT. These results indicate that measurement of the levels of free TFPI and PAI-1 is a potentially useful tool for the detection of early atherosclerosis in men.
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PMID:Potential of free-form TFPI and PAI-1 to be useful markers of early atherosclerosis in a Japanese general population (the Suita Study): association with the intimal-medial thickness of carotid arteries. 1538 Apr 59

The effects of cerivastatin and fenofibrate on proteins involved in haemostasis and on markers of inflammation were investigated in otherwise healthy middle-aged males with combined hyperlipidemia. Besides classical risk factors, other so-called novel risk factors for coronary artery disease are seen to be playing an increasingly important role in the development and progression of atherosclerosis. Thirty-eight males, aged 49 +/-5 years were randomised to 12 weeks treatment either with cerivastatin at a daily dose of 0.2 mg to 0.4 mg to achieve the LDL cholesterol goal of <3.0 mM, or with fenofibrate 250 mg daily. Fasting serum lipids, homocysteine, total and free tissue factor pathway inhibitor (TFPI), plasminogen activator inhibitor (PAI-1) and tissue plasminogen activator (t-PA) antigen and activity, C-reactive protein (CRP), interleukin-6 (IL-6) and tumor necrosis factor-alpha (TNF-alpha) were measured. No change in homocysteine level was observed in the cerivastatin group, while after fenofibrate administration it increased (p <0.0001). Total TFPI decreased significantly after cerivastatin (p = 0.002), but not after fenofibrate. Free TFPI did not decrease after either drug. Neither drug affected (t-PA) antigen and activity, while fenofibrate increased PAI-1 antigen (p <0.05) and activity (p <0.05). Cerivastatin decreased serum CRP values by 49.5% (p = 0.001), and fenofibrate by 29.8% (p = 0.03). The decreases of CRP in the two groups differed significantly (p = 0.04). IL-6 levels decreased significantly in the fenofibrate group (39%; p <0.0001), but not in the cerivastatin group (15%; p = 0.24) No significant decreases were observed for TNF-alpha. Cerivastatin had neutral effects on fibrinolysis, homocysteine or coagulation. On the other hand, fenofibrate increased PAI-1 antigen and activity and homocysteine, and did not affect coagulation. Both cerivastatin and fenofibrate reduced CRP levels, the decrease being significantly greater after cerivastatin. Fenofibrate also significantly decreased IL-6.
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PMID:Statin and fibrate treatment of combined hyperlipidemia: the effects on some novel risk factors. 1554 43

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