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Query: EC:3.4.21.5 (
thrombin
)
33,306
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The relation of habitual diet and cardiorespiratory fitness to plasma fibrinogen concentration, Factor VII activity (F VIIc), Factor X activity (F X), tissue plasminogen activator (t-PA), plasminogen activator inhibitor 1 (PAI-1) concentrations, anti-
thrombin
III (AT III) and
apolipoprotein(a)
(Apo[a]) was analyzed in 111 normolipidemic men aged 51-53 years. Diet was evaluated by seven day food records. Maximal oxygen consumption and aerobic threshold were determined in maximal bicycle ergospirometry test based on breath-by-breath analysis of expired respiratory gas. Plasma fibrinogen was measured by
thrombin
method, F VIIc by one-stage coagulation method, AT III and F X colorimetrically, t-PA and PAI-1 antigens by ELISA and Apo(a) concentration radioimmunologically. Carbohydrate intake was negatively (r = -0.31, p < 0.001; r = -0.24, p < 0.01; r = -0.36, p < 0.001) and fat intake positively (r = 0.24, p < 0.01; r = 0.29, p < 0.001; r = 0.32, p < 0.001) related to F X, PAI-1, and t-PA, respectively. Aerobic threshold correlated negatively with fibrinogen (r = -0.33, p < 0.001) and F X (r = -0.30, p < 0.001). Fasting insulin was the strongest determinant for PAI-1 (r = 0.55, p < 0.001) and a significant positive correlate to F VIIc (r = 0.30, p < 0.001), F X (r = 0.28, p < 0.01) and t-PA (r = 0.47, p < 0.001). These data emphasize the importance that carbohydrate rich diet and cardiorespiratory fitness may have against thrombogenesis.
...
PMID:Relation of habitual diet and cardiorespiratory fitness to blood coagulation and fibrinolytic factors. 819 95
Microalbuminuria is an important risk factor for cardiovascular disease in non-insulin-dependent diabetes mellitus (NIDDM) patients although the pathogenic mechanism between microalbuminuria and cardiovascular disease has not yet been established. Microalbuminuria in insulin-dependent diabetes mellitus (IDDM) patients has been related to abnormalities in haemostasis, poor glycaemic control, disadvantageous alterations in the lipid spectrum and elevated concentrations of lipoprotein(a), another independent risk factor for cardiovascular disease. In this study the interrelations between microalbuminuria and metabolic control, lipoprotein(a), other blood lipids and several haemostasis parameters were studied in 96 NIDDM patients (50 women, 46 men). Forty-three patients showed microalbuminuria. No significant differences were found in blood lipids (
Lp(a)
, serum cholesterol, low-density lipoprotein and high-density lipoprotein cholesterol and triglycerides), glycaemic control (HbA1c) and several haemostasis parameters (factor VII, VIII, fibrin monomer,
thrombin
-antithrombin III, D-dimer, tissue plasminogen activator antigen and plasminogen activator inhibitor-1) between the micro- and normoalbuminuric subgroups. In the microalbuminuric subgroup increased concentrations for plasminogen and alpha 2-antiplasmin were measured. In general, the presence of microalbuminuria was not associated with significant alterations in glycaemic control, blood lipids or haemostasis parameters in this group of 96 NIDDM patients. Further investigation is required to explain the excess cardiovascular mortality in patients with an elevated urinary albumin excretion rate.
...
PMID:The effect of microalbuminuria on glycaemic control, serum lipids and haemostasis parameters in non-insulin-dependent diabetes mellitus. 825 Apr 95
Thrombomodulin (TM) is a very efficient natural anti-
thrombin
glycoprotein expressed on the endothelial cell surface. Circulating soluble thrombomodulin is also detected by enzyme immunoassay in plasma and represents some fragments of membrane TM with various molecular weight. Plasma TM (TMp) levels are elevated in diseases associated with endothelium damage. We have explored TMp in patients with atheromatous disease and compared its level with others endothelial cell markers, particularly those who indicate cell activation, as tissue-type plasminogen activator (t-PA), inhibitor of plasminogen activator (PAI-1) and prostacyclin (PG12). Thirty seven patients with documented atheromatous artery disease were included in this study. They were not diabetics and their hepatic and renal functions were normal. Mean age was 71 +/- years. Routine serum parameters were checked out as well as others more specific for endothelium activation (TMp, PG12, PAI-1, t-PA) measured by enzyme immunoassay. Patients were classified according to three localizations of atheromatous involvement: - 15 patients with peripheral occlusive arteriopathy disease (POAD) - 6 with coronary artery disease (CAD); and 16 with polyvascular involvement (POLY). They were compared with 21 controls without any vascular lesions (mean age: 43 +/- 13 years). In controls TMp was 36 +/- 8 ng/ml without significant change according with age and sex. In patients whatever the localization of atheroma, TMp was found significantly higher: POAD = 51.3 +/- 19.7 ng/ml (p = 0.003); CAD = 49.2 +/- 15.4 ng/ml (p = 0.008); POLY = 49.6 +/- 17.2 ng/ml (p = 0.003). A positive correlation was pointed out in all patients between TMp and t-PA (p = 0.047), TMp and PG12 (p = 0.008). A positive correlation between TMp and t-PA (p = 0.034) was found only in the subgroup with POAD. In this study, there was no correlation between TMp and the following parameters: leucocytes, haemoglobin, cholesterol, HDL, LDL-cholesterol,
Lp(a)
, fibrinogen.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:[Evidence of elevated soluble plasma thrombomodulin in atherosclerosis]. 839 2
Lipoprotein(a) [
Lp(a)
] is a unique lipoprotein consisting of a low-density lipoprotein moiety (LDL) covalently linked to apoprotein(a). Previous work has demonstrated that
Lp(a)
can compete with plasminogen (PGN) for binding to endothelial and mononuclear cells and can inhibit PGN activation in cell-free systems. We have assessed the binding of
Lp(a)
to platelets and the influence of binding on the activation of PGN by tissue-type plasminogen activator (t-PA) in this system. In direct binding experiments,
Lp(a)
bound specifically, saturably, and reversibly to platelets with an estimated apparent Kd of 0.20 microM. Scatchard analysis revealed a single class of binding sites with 81,000 +/- 22,000 particles of
Lp(a)
bound at saturation. Interestingly,
Lp(a)
bound to a similar extent to thromboasthenic platelets. Activation of platelets with ADP or
thrombin
reduced
Lp(a)
binding capacity by approximately 50% without changing affinity.
Lp(a)
also inhibited the binding of PGN to platelets with an IC50 of approximately 0.23 microM. Over a similar concentration range, LDL did not inhibit PGN binding to platelets. In addition,
Lp(a)
inhibited PGN binding to plasmin-treated platelets with an IC50 of approximately 0.2 microM. Kinetic experiments demonstrated that
Lp(a)
acted as a competitive inhibitor of PGN activation by t-PA on the platelet surface, with an estimated Ki of 0.49 microM. In the presence of platelets,
Lp(a)
decreased the kcat/Km for t-PA by 3-fold, owing primarily to an increase in the Km of t-PA for PGN. In contrast, LDL did not alter the kinetics of PGN activation by t-PA on the platelet surface.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Lipoprotein(a) binds to human platelets and attenuates plasminogen binding and activation. 848 40
To study the mechanism underlying the high lipoprotein (a) [
Lp(a)
] level in uremic patients on chronic hemodialysis, we investigated the levels of
Lp(a)
, acute phase reactants (C-reactive protein and sialic acid), and interleukin-6 (IL-6) in 54 dialysis patients. The mean [95% CI]
Lp(a)
level was increased in the hemodialysis patients compared with the 30 controls (30 [25-36] vs. 18 [14-23] mg/dl, p < 0.005). Among dialysis patients, 46% had an
Lp(a)
level > 30 mg/dl, which was significantly higher than the percentage in the control group (17%). The levels of C-reactive protein, sialic acid, and IL-6 were also increased in dialysis subjects compared with controls (200 [134-299] vs. 37 [24-58] micrograms/dl, p < 0.0001; 63 [59-66] vs. 54 [52-56] mg/dl, p < 0.002; and 9.2 [7.8-11] vs. 5.5 [5.0-6.1] pg/ml, p < 0.0005, respectively). The
Lp(a)
level was positively correlated with that of C-reactive protein (r = 0.415, p < 0.002), sialic acid (r = 0.426, p < 0.002), and IL-6 (r = 0.298, p < 0.05) in the hemodialysis patients, but not in the controls or non-dialysis uremic patients. The
Lp(a)
level in the dialysis patients was also positively correlated with activation markers of coagulation (
thrombin
-antithrombin III complex and plasmin-alpha 2-plasmin inhibitor complex, p < 0.005). These results indicate that the
Lp(a)
level is closely related to the acute phase reaction and hypercoagulability in chronic hemodialysis patients.
...
PMID:High lipoprotein (a) levels in chronic hemodialysis patients are closely related to the acute phase reaction. 856 Apr 4
Various hemostatic abnormalities have been reported and excess activation of coagulation factors, such as prothrombin, factor VII, factor IX, and factor XI, have been detected in thrombotic diseases states by various assay systems. We recently developed the enzyme-linked differential immunoassay for activated factor XI-alpha 1 antitrypsin complex (FXIa-alpha 1 AT) and applied it with other assays for activated factors such as
thrombin
-antithrombin III complex (TAT) to detect the hypercoagulable state in clinical samples. In patients with DIC, the FXIa-alpha 1 AT level in plasma increased before onset of DIC. In patients with non-insulin-dependent diabetes mellitus, FXIa-alpha 1AT and TAT levels were increased in the patient plasma. FXIa-alpha 1AT was related to the severity of urinary albumin excretion, whereas TAT was not. Plasma FXIa-alpha 1AT levels were significantly increased in patients with angiographically proven coronary artery disease, and showed a positive correlation with TAT, fibrinogen, and
Lp(a)
. Evaluation of activated coagulation factor provides useful information on the diagnosis of thrombotic disease.
...
PMID:[Activated coagulation factors in various thrombotic diseases]. 856 28
Growing evidence suggests that moderately elevated levels of homocysteine are associated not only with arterial thrombosis and atherosclerosis but also with venous thrombosis as well. We have reviewed recent studies that indicate that homocysteine inhibits several different anticoagulant mechanisms that are mediated by the vascular endothelium. The protein C enzyme system appears to be one of the most important anticoagulant pathways in the blood. Homocysteine inhibits the expression and activity of endothelial cell surface thrombomodulin, the
thrombin
cofactor responsible for protein C activation. Homocysteine inhibits the antithrombin III binding activity of endothelial heparan sulfate proteoglycan, thereby suppressing the anticoagulant effect of antithrombin III. Homocysteine also inhibits the ecto-ADPase activity of human umbilical vein endothelial cells (HUVECS). Because ADP is a potent platelet aggregatory agent, this action of homocysteine is prothrombotic. Homocysteine also interferes with the fibrinolytic properties of the endothelial surface because it inhibits the binding of tissue plasminogen activator. Homocysteine stimulates HUVEC tissue factor activity. We have found that lipoprotein(a) [
Lp(a)
] also stimulates HUVEC tissue factor activity. The combination of
Lp(a)
plus homocysteine induced more tissue factor activity than either agent alone. These disruptions in several different vessel wall-related anticoagulant functions provide plausable mechanisms for the occurrence of thrombosis in hyperhomocysteinemia.
...
PMID:Homocysteine and hemostasis: pathogenic mechanisms predisposing to thrombosis. 864 72
Diabetes mellitus is associated with disturbances in hemostasis that could contribute to the development of diabetic vascular disease. We investigated the changes in parameters of blood coagulation and the fibrinolytic system and in plasma levels of lipoprotein(a)(
Lp(a)
) in 124 patients with type II diabetes mellitus and 44 healthy control subjects matched for age and body mass index (BMI) to determine whether hemostatic disturbances may lead to increased cardiovascular mortality. Median levels of fibrinogen (P < 0.0001),
thrombin
-antithrombin III complex (TAT) (P < 0.005), and plasminogen activator inhibitor-1 (PAI-1) activity (P < 0.05) in plasma were significantly elevated in diabetic patients compared with controls. The median concentration of
Lp(a)
was significantly higher in diabetic patients than in normal controls (18.2 vs. 12.6 mg/dl. P < 0.0005).
Lp(a)
levels tended to be elevated in patients with a prolonged history of diabetes. There was no evidence that
Lp(a)
levels were affected by metabolic control or by type of treatment. Twenty-two diabetics with coronary heart disease (CHD) had significantly higher levels of fibrinogen (P < 0.05), TAT (P < 0.05), and
Lp(a)
(24.7 vs. 13.7 mg/dl, P < 0.01) than the 51 patients without diabetic angiopathy. Our data indicate that impaired hemostatic balance in diabetes may cause hypercoagulability and may thus contribute to the increased cardiovascular mortality in diabetes.
...
PMID:Hypercoagulability and high lipoprotein(a) levels in patients with type II diabetes mellitus. 864 73
The aim of the present study was to evaluate some metabolic, coagulation and fibrinolytic parameters in 35 patients (24 males and 11 females, mean age 57 +/- 4 years) suffering from myocardial infarction more than 6 months before with or without carotid atherosclerotic lesions. After evaluation by B-mode duplex scanning system of extracranial carotid arteries, the patients were subdivided into two groups: Group 1 (n = 16, with carotid plaques or intima-media thickening) and Group 2 (n = 19, without carotid plaques or intima-media thickening). Eighteen age- and sex-matched subjects were recruited as controls (Group 3). Groups 1 and 2 displayed significantly higher levels of total cholesterol and apolipoprotein B and significantly lower levels of HDL-cholesterol and apolipoprotein A1 than Group 3, while serum triglyceride and lipoprotein (a)-Lp (a) levels were significantly higher in Group 1 as compared to the control group. Moreover, Group 1 and 2 displayed significantly higher levels of factor VII, fibrinogen, F1+2,
thrombin
-antithrombin complex and plasminogen activator inhibitor (PAI) post venous occlusion and significantly lower levels of tissue plasminogen activator (t-PA) post venous occlusion than Group 3. Significantly higher levels of t-PA and PAI pre venous occlusion and significantly lower levels of antithrombin III, C-protein and S-protein were observed in Group 1 as compared to controls. In patients with highest
Lp(a)
level, the lowest t-PA level post venous occlusion and the highest PAI level post venous occlusion were observed. Our data show an activation of coagulation and a deficient fibrinolysis in survivors of myocardial infarction, particularly in those with associated carotid atherosclerotic lesions. We speculate that this thrombophilic state may play a key role in the pathogenesis of atherosclerotic vascular disease and thromboembolic complications.
...
PMID:[Thrombophilic state inpatients suffering from myocardial infarction with or without carotid atherosclerotic lesions]. 870 61
Studies suggest that thrombosis is important in the progression of atherosclerotic lesions. The biochemical markers prothrombin fragment 1-2 and fibrinopeptide A reflect in vivo
thrombin
generation and activity, respectively. As such, they are markers that might be associated with cardiovascular risk. From the Cardiovascular Health Study, a cohort study of 5201 persons over 65 years of age, 399 persons free of clinical cardiovascular disease (CVD) at the baseline examination were selected for study of specialized markers of hemostasis. We report the cross-sectional relationships of the
thrombin
markers to CVD risk factors and measures of subclinical CVD. The range of fragment 1-2 2 was 0.12 to 0.85 nmol/L. The range of fibrinopeptide A was 0.9 to 44.1 micrograms/L. High levels of fragment 1-2 and fibrinopeptide A were associated with age, with levels higher in women than men. Fragment 1-2 was associated with smoking; high levels of triglyceride, creatinine, and C-reactive protein; and low levels of glucose. Fibrinopeptide A was associated with high C-reactive protein and
apolipoprotein(a)
and lower ankle-brachial index. There were no significant associations of the
thrombin
markers with race, fibrinogen, alcohol consumption, diabetes, or most measures of subclinical CVD. Study findings support a hypothesis that there are physiological interrelationships between cardiac risk factors, hemostasis, inflammation, and progression of atherosclerosis.
...
PMID:Correlates of thrombin markers in an elderly cohort free of clinical cardiovascular disease. 879 70
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