Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.6 (thromboplastin)
 13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exposure of endothelial cells (ECs) to thrombin or cytokines leads to major changes in their biochemical properties, which confer procoagulant activities. Stimulated ECs express the procoagulant glycoprotein tissue factor (TF). Although some TF is expressed on the apical surface of the cells, most is deposited as a cryptic pool in the subendothelial matrix. This matrix-associated TF may play a role in thromboembolic complications associated with alterations in the integrity of the EC monolayer. We have measured TF activity on the surface and in the subcellular matrix of human saphenous vein ECs in culture, by assaying the TF-dependent formation of activated factor X in the presence of factor VII. The subcellular matrix was prepared by exposure of ECs to ammonium hydroxide. Incubation of ECs for 4 h with 1 U/ml human thrombin induced TF expression on the apical cell surface and in the matrix. Activity in the matrix was 4.1 +/- 0.5 times greater than on the cell surface. Pentoxifylline inhibited the expression of TF both on the cell surface and in the matrix. The EC50 was on the order of 3.9 mM in both cases. No signs of cell toxicity were observed at this concentration of pentoxifylline. Similar effects were obtained with trequinsin (HL 725), a phosphodiesterase inhibitor, with an EC50 of 40 microM. This suggests that an increase in cAMP may be involved in the mechanism of action of pentoxifylline. Inhibition of TF deposition in the matrix may be important in the prevention of thromboembolic episodes in conditions where ECs either retract or are removed by major injury.
J Cardiovasc Pharmacol 1995
PMID:Inhibitors of phosphodiesterase (pentoxifylline, trequinsin) inhibit apical and subcellular matrix expression of tissue factor in cultured human endothelial cells. 869 70

The antithrombotic and bleeding effects of a low-molecular-weight heparin (LMWH, fragmin) and a thrombin active-site inhibitor (argatroban) were determined in anesthetized rats. Occlusive thrombi were produced in the vena cava, either by partial stasis of blood flow or transmural vessel injury, and in the carotid artery by transmural vessel injury. Bleeding time was measured by puncturing small mesenteric arteries. Each drug was tested in multiple intravenous (i.v.) doses and inhibited venous and arterial thrombosis when the activated partial thromboplastin time (APTT) was increased as much as or more than twofold, although greater APTT increases were required with fragmin and against arterial thrombosis. Fragmin and argatroban decreased to an equivalent extent the weight of venous thrombi induced by stasis (> or = 99%) or vessel injury (90 and 96%, respectively). The maximum inhibition of arterial thrombosis was less with fragmin (69%) and argatroban (65%) and required higher doses of each drug relative to venous thrombosis. At doses that were just optimal against arterial thrombosis, bleeding time was increased moderately by fragmin (32%) and was unaffected by argatroban. These studies demonstrate that doses of fragmin and argatroban that exert comparable antithrombotic activity in large arteries and veins have only moderate effects on bleeding time in small arteries.
J Cardiovasc Pharmacol 1996 Jul
PMID:Low-molecular-weight heparin (fragmin) and thrombin active-site inhibitor (argatroban) compared in experimental arterial and venous thrombosis and bleeding time. 879 31

Although heparin is believed to be poorly absorbed orally, we recently demonstrated that oral heparin rapidly enters the circulation, with most of the drug being taken up by endothelium. To determine the effective antithrombotic dose of oral heparin, we induced thrombosis by applying 10% formalin in 65% methanol to exposed rat jugular vein. Saline or heparin, at doses ranging from 3.25 to 60 mg/kg, was immediately placed in the stomach; 4 h later, the vein was inspected for a thrombus. A dose-dependent decrease in thrombosis was observed with oral heparin. Although there was little change in anticoagulant activity as measured by the activated partial thromboplastin time (APTT) of plasma samples taken 4 h after administration, a significant dose effect was demonstrated by regression analysis. Heparin could be demonstrated chemically in 52% of plasma samples and in 38% of aortic or vena caval endothelial samples. A significant dose effect was observed in aortic endothelial heparin concentrations, with amounts 1,000-fold that determined in plasma. These results indicate that oral heparin exhibits antithrombotic activity in a dose-dependent manner, with low levels in plasma.
J Cardiovasc Pharmacol 1996 Jul
PMID:Antithrombotic activity of oral unfractionated heparin. 879 32

The standard high-range activated clotting time (sHR ACT) is used to monitor anticoagulation postangioplasty (PTCA), but may be unreliable. We assessed the accuracy of a new method we termed the ACT differential (ACT Diff), obtained by measuring the difference between an sHR ACT and a heparinase ACT from the same sample. Heparinase removes heparin from its sample and provides a current heparin-free baseline. For phase 1 of the study, the sHR ACT, ACT Diff, and laboratory APTT were measured in 250 samples from 75 PTCA patients. In 125 samples with an APTT prolonged but within measurement range, linear regression against the APTT was performed. The correlation coefficient was 0.74 for the ACT Diff and 0.24 for the sHR ACT. An ACT Diff of 15-25 sec was found to equal an APTT of 2.5-3.5 x control. In 50 samples with a normal activated partial thromboplastin time (APT), there was good differentiation by the ACT Diff of results from those adequately heparinized, with a value of 0.9 +/- 4.4 sec. The sHR ACT was 114 +/- 15.5 sec, and could not reliably distinguish between anticoagulated and nonanticoagulated samples. In 75 samples obtained with a high APTT (above measurement range), the ACT Diff was > 30 sec in 95% of samples, and again this allowed differentiation from therapeutic samples. The equivalent sHR ACT was 148 sec, and could not reliably distinguish between anticoagulated and overanticoagulated samples as the ACT Diff could. In phase 2, to examine the clinical usefulness of the ACT Diff, 286 patients were managed post-PTCA by starting heparin when ACT Diff fell to < 50 sec, maintaining ACT Diff at 15-25 sec during heparin infusions, and following cessation of heparin, by removing sheaths when the ACT Diff was < 7 sec. These patients were compared to a control group of 250 patients. Major bleeding (5% vs. 0.5%, P < 0.005) and minor bleeding (30% vs. 13%, P < 0.001) were significantly reduced in the group managed using the ACT Diff. The reduction in bleeding was thought to be due to the rapid availability of reliable results. Abrupt closure was low in both groups (0% with ACT Diff vs. 0.8%). No other thrombotic events occurred. Following phases 1 and 2, the ACT Diff replaced the APTT in all PTCA patients at this institution. In the 18 mo from July 1993, 1,104 patients were managed this way. Incidence of major bleeding (0.2%), transfusion requirement (0.1%), false anneurysm (0.6%), and abrupt closure during heparin infusion (0.1%) remained low. In conclusion, the ACT Diff is more accurate than an sHR ACT, and its clinical use in PTCA patients is associated with a very low incidence of complications from anticoagulation. Its routine use should be considered by units unable to obtain rapid APTT results.
Cathet Cardiovasc Diagn 1996 Feb
PMID:Activated clotting time differential is a superior method of monitoring anticoagulation following coronary angioplasty. 880 69

We compared the antithrombotic effects of the thrombin inhibitor, D-methyl-phenylalanyl-prolyl-arginal (GYKI-14766) with those of heparin in a canine model of arterial and venous rethrombosis. Thrombogenesis was induced by electrolytic injury to the endothelial surface of the carotid artery and jugular vein. Either heparin (300 U/kg, n = 7), GYKI-14766 (0.5 mg/kg/h, n = 7), or saline (n = 10) was administered intravenously (i.v.) immediately after the local administration of anisoylated plasminogen streptokinase activator complex (APSAC 0.1 U/kg). Supplemental doses of heparin (100 U/kg) were administered at 1-h intervals. Infusion of GYKI-14766 was maintained for 5 h throughout the experiment. Ex vivo platelet aggregation in response to ADP or arachidonic acid (AA) was not changed in any of the experimental groups. Both GYKI-14766 and heparin increased the activated partial thromboplastin time (aPTT) over their respective baseline values. Heparin, but not GYKI-14766, increased the bleeding time. After successful thrombolysis, arterial and venous rethrombosis occurred in all saline-treated dogs. GYKI-14766 prevented cyclic flow variations and reocclusion in the artery and the vein (p < 0.01). Heparin had only minimal effects on the artery and no effect on the vein. Arterial thrombus weights were reduced by GYKI-14766 [saline control = 24 +/- 4 mg, GYKI-14766 = 9 +/- 3 mg, (p < 0.05); heparin = 14 +/- 2 mg, p = NS]. The venous thrombus weights were reduced slightly by GYKI-14766 and were unchanged by heparin (saline = 25 +/- 5 mg, GYKI-14766 = 13 +/- 4 mg, heparin = 26 +/- 3 mg). The data suggest that GYKI-14766 is effective in preventing occlusive rethrombosis in both the arterial and venous circulation after thrombolysis without augmenting bleeding time. GYKI-14766 may represent an alternative to heparin as an adjunctive agent during thrombolytic therapy.
J Cardiovasc Pharmacol 1996 Apr
PMID:Antithrombotic effect of GYKI-14766 in a canine model of arterial and venous rethrombosis: a comparison with heparin. 884 72

We tested the hypothesis that enhanced intravascular coagulation in pregnancy could produce clinical symptoms similar to those of preeclampsia, such as hypertension, proteinuria, and edema. Having confirmed this, we then examined whether the pathological changes caused by intravascular coagulation could be suppressed by administration of antithrombin III (AT III), an endogenous inhibitor active to thrombin and factor X a. Intravascular coagulation was induced in Wistar rats on day 16-20 of pregnancy by 1-h arterial infusion of tissue thromboplastin (TP) through the left ventricle of the heart. One hour after the end of the infusion period, organ blood flows were measured by the radioactive ((57)Co-labeled) microsphere method, and fibrin deposition in organs was measured by radiolabeling with [(125)I] fibrinogen injected before TP infusion. Infusion of TP produced fibrin deposition in the kidney, lung, and liver, but not in the myometrium and placenta, as well as an 80% decrease in renal blood flow (RBF), with oliguria and proteinuria. TP also caused an increase in blood pressure (BP) accompanied by an increase in plasma renin activity (PRA), both of which were suppressed by bilateral nephrectomy before TP infusion. The prophylactic administration of AT III concentrates (60 or 300 U/kg intravenously (i.v.), followed by infusion of 30 or 150 U/kg/2 h, respectively) prevented all pathological changes in a dose-dependent manner. AT III increased placental blood flow regardless of the state of coagulation. These findings suggest that intravascular coagulation plays a significant part in the pathophysiology of preeclampsia and that AT III concentrates may have therapeutic potential in the treatment of this condition.
J Cardiovasc Pharmacol 1996 May
PMID:Antithrombin III prevents renal dysfunction and hypertension induced by enhanced intravascular coagulation in pregnant rats: pharmacological confirmation of the benefits of treatment with antithrombin III in preeclampsia. 885 41

Left ventricular assist devices have provided successful supportive therapy for patients awaiting cardiac transplantation for extended periods of time. Although thromboembolic events have complicated support with these devices, the HeartMate left ventricular assist device developed by Thermo Cardiosystems, Inc., Woburn, Massachusetts, was specifically designed with a textured blood-contacting surface to minimize this risk. Clinical experience with this device has been encouraging, inasmuch as minimal thromboembolic complications have occurred despite the absence of anticoagulation. The coagulation and fibrinolytic pathways in these individuals were investigated to better understand the hematologic status of patients treated with the Thermo Cardiosystems device. Despite apparently normal prothrombin and activated partial thromboplastin times, as well as platelet counts, evidence of significant thrombin generation and fibrinolysis was present. To eliminate underlying cardiac failure as the responsible factor for these abnormalities, we made similar measurements in patients with end-stage heart failure who were not supported by an assist device or anticoagulation. These measurements revealed no evidence of thrombin generation or fibrinolysis. These data demonstrate that patients supported with a left ventricular assist device, while successfully sustained without systemic anticoagulation, nevertheless have evidence of activation of coagulation. These phenomena appear to be related to the presence of the device rather than to the underlying cardiac abnormalities. Although procoagulant and fibrinolytic pathways are apparently balanced in these patients, these data underscore the potential for the development of bleeding or thrombosis in clinically relevant settings.
J Thorac Cardiovasc Surg 1996 Oct
PMID:Activation of coagulation and fibrinolytic pathways in patients with left ventricular assist devices. 887 37

A new microsample coagulation analyzer (Hemochron Jr.) has recently been developed which performs a modified activated clotting time (ACT+) and an aPTT by using different reagents. The Hemochron Jr. measures the clotting time of a 5-microliter whole-blood sample by an optical detector and extrapolates the results to the activated clotting time (ACT+) or the plasma-activated partial thromboplastin time by using a validated regression analysis. We compared 124 simultaneous ACT+ and Hemochron ACTs, and 53 paired Hemochron Jr. aPTTs and hospital laboratory aPTTs, in 44 patients during coronary intervention. The Hemochron Jr. aPTT closely correlated with the lab aPTT (r = .79, P < .0001), and the test results were available much more rapidly than the lab aPTT (3.5 +/- 1.1 vs. 56.3 +/- 25.5 min, P = 0.0029). A comparison of duplicate ACT+ measurements did not identify a significant difference in the means (292 +/- 115 sec vs. 293 +/- 112 sec, P = 0.72). The ACT+ closely correlated with the Hemochron ACTs (r = .85, P < .0001). At baseline, the mean ACT+ (175 +/- 43 sec) exceeded the Hemochron ACT (144 +/- 36 sec) by 22% (P < .001). After heparin administration, the mean ACT+ (378 +/- 74 sec) exceeded the Hemochron ACT (332 +/- 65) by 12% (P < .001). The Hemochron Jr. provides a fast and reproducible methodology for measuring ACT and aPTT, using a small blood volume. Further studies are required to determine the optimal anticoagulation range when using the Hemochron Jr. during or after interventional procedures.
Cathet Cardiovasc Diagn 1996 Sep
PMID:Clinical evaluation of a microsample coagulation analyzer, and comparison with existing techniques. 887 58

CVS-1123, low-molecular-weight, direct thrombin inhibitor was studied in an anesthetized canine model of arterial and venous thrombosis to determine whether thrombin inhibition could reduce the incidence of occlusive thrombosis in response to vessel-wall injury. The left carotid artery (LCA) and right jugular vein (RJV) were instrumented with a flow probe, intraluminal electrode, and critical stenosis. Either saline (n = 9), or CVS-1123 (n = 12) was administered in a loading dose of 2 mg/kg i.v., followed by an infusion (2.46 mg/kg/h for 180 min). Vessel-wall injury was initiated by applying a 300-microA anodal current to the intimal surface of the LCA and RJV. Platelet aggregation in response to gamma-thrombin remained inhibited by CVS-1123 for 8 h. The activated partial thromboplastin time (aPTT) was increased and remained elevated for the duration of the protocol. The prothrombin time (PT) showed an initial increase and then a rapid decrease after the infusion was discontinued. There was a twofold increase in the bleeding time (BT) at 2 h. The time to occlusion of the LCA was prolonged (380 +/- 22 min in the CVS-1123 group vs. 152 +/- 18 min in the saline group) with seven of 12 patent arteries at 8 h. Similarly, the time to occlusion for RJV was prolonged (415 +/- 16 min in the CVS-1123 group vs. 99 +/- 8 min in the saline group) with eight of 12 veins remaining patent at 8 h. CVS-1123 administration was associated with a decrease in the thrombus weights in both the LCA and RJV as compared with the saline-treated animals. In summary, CVS-1123 modifies the thrombogenic response to deep vessel-wall injury in both the arterial and venous circulations. The results suggest that CVS-1123 is an effective antithrombin and may offer a therapeutic alternative to current antithrombins in the management of arterial and venous thrombosis.
J Cardiovasc Pharmacol 1997 Feb
PMID:CVS-1123, a direct thrombin inhibitor, prevents occlusive arterial and venous thrombosis in a canine model of vascular injury. 905 74

We report on 17 cases of late pericardial tamponade (LPT, > 60 hours postoperatively) occurring post aortic and/or mitral valve replacement or coronary artery bypass graft surgery between 1979 and 1994. This includes one patient in whom LPT occurred twice. These cases were found from a search of 374 patients including those who were diagnosed with hemorrhagic complications secondary to open heart surgery, pericardial effusion and tamponade, those who underwent pericardiocentesis and a randomly picked group of patients. The mean age of the group was 57.8 years and included 11 males and 6 females. Due to the relatively small size of our sample (reflecting the infrequency of this complication) we force matched this tamponade group to look for any relationships that may exist between the incidence of LPT and anticoagulant therapy. No significant difference was found between the two groups with documented preoperative anticoagulant therapy (number of days; p > 0.2) or in relation to coagulation tests (prothrombin time, partial thromboplastin time and platelet counts; p > 0.2). In our case series, anticoagulant therapy did not appear to significantly affect the incidence of LPT.
J Cardiovasc Surg (Torino) 1997 Apr
PMID:Effect of anticoagulants on the incidence of late pericardial tamponade following open heart surgery. The Hawaii experience. 920 Nov 18


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