Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00750 (PLA)
 16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of physical training on hemostatic parameters were evaluated in 56 postmyocardial infarction (MI) patients before and after one month of systematic physical training and in 30 control post-MI patients, who did not undergo such training. There were no significant changes in prothrombin time (PT) and alpha 1-antitrypsin (alpha 1AT) at the beginning and end of the study in either group. Levels of fibrinogen, Factor VIII: C (VIII:C) and von Wildebrand antigen (vWf:Ag), and activities of ATIII and plasminogen (Plg) were significantly decreased in the group with physical training (p less than 0.05), while values were unchanged in the control group. Hematocrit, platelet counts, and alpha 2-plasmin inhibitor (alpha 2PI) activities also decreased in the physical training group (p less than 0.05). In contrast, these variables increased in the control group (p less than 0.05). Activated partial thromboplastin time (aPTT) tended to be prolonged in the group with physical training, while it was shortened in the control group. In a subset of 20 patients with physical training, resting levels of plasmin-alpha 2PI complex (PIC), thrombin-antithrombin III complex (TAT), protein-C (P-C:Ag), plasminogen activator inhibitor-1 (PAI-1), VII:C, and P-C activities had significantly decreased after one month of physical training (p less than 0.05), although tissue plasminogen activator activities remained unchanged. Physical training appeared to suppress coagulability as indicated by the decrease in fibrinogen, VIII:C, vWf:Ag, VII:C, and TAT, and prolongation of aPTT. The decrease in plasminogen, t-PA:Ag, alpha 2PI, PAI-1, and PIC after physical training may result from the decreased coagulability. In conclusion, physical training appears to induce a suppression of the coagulation system in patients in the recovery phase of MI.
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PMID:Blood coagulability and fibrinolytic activity before and after physical training during the recovery phase of acute myocardial infarction. 162 56

The effect of burn wound size on the activation of fibrinolysis, coagulation, and contact factors was analyzed in 60 thermal injury patients. Blood samples from 47 male patients and 13 female patients, (average age 37 years; range 1.5-70 years) were collected within the first 36 hours and at 5-7 days following injury. The patient population was categorized by percentage of burn (second degree and/or third degree): less than 20%, n = 22; 20%-40%, n = 18; greater than 40%, n = 20. The average percentage of burn was 32% (range, 4%-95%). The mechanism of injury was by flame (25), explosion and flame (19), scald (12), electric (3), or chemicals (1). An associated inhalation injury was present in 12 patients. The overall mortality rate was 13% (8). Sepsis or serious infection occurred in 23% (14) of the patients. On admission, 83% of the patients had normal prothrombin times (PT) and activated partial thromboplastin times (APTT). However, specific hemostatic variables showed marked changes. Admission hemostatic markers that correlated with the severity of injury were: tissue-plasminogen activator (tPA), plasminogen activator inhibitor (PAI), D-dimer (D-di), plasminogen (Plg), proteins C and S (PrC and PrS), antithrombin III (ATIII), thrombin-antithrombin complex (TAT), kallikrein (Kal:c), kinin (Kin), C1 esterase inhibitor (C1Inh), and factor VII clotting and antigen (FVII:c, FVII:ag). These data suggest that during the early course following burn injury, thrombogenicity is increased (TAT increases) because of a decrease in ATIII, PrC, and PrS; and fibrinolysis activation (D-di increases) occurs via an increase in tPA with a p value increase in PAI.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of burn wound size on hemostasis: a correlation of the hemostatic changes to the clinical state. 163 6

Venous thromboembolism is complex with a multifactorial etiology. The Virchow triad (changes in blood flow, changes in vessel wall, and changes in the properties of blood) gives the main factors involved in venous thromboembolism. Venous stasis during immobilization in general anesthesia, stroke with hemiparesis, and heart failure plays a central role. The thromboembolic process can be initiated by a disturbance in the normal "hemostatic balance," with an increased thrombogenic potential, due to release of thromboplastin and collagen exposure during vessel wall injury by stasis and hypoxia, decreased fibrinolysis during surgery, malignancy, among others. Many substances modify these processes, including heparan sulfate, AT III, protein C, t-PA inhibitor, and alpha 2-antiplasmin.
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PMID:Pathophysiology of venous thromboembolism. 175 82

Activation and inhibition of the haemostatic system was reviewed including the interaction between the four biological systems involved in haemostasis: the vessel wall, the platelets, the coagulation system and the fibrinolytic system. The haemostatic mechanism is initiated at the site of injury through local activation of surfaces and release of tissue thromboplastin, resulting in formation and deposition of fibrin. The coagulation process is regulated by physiological anticoagulants. Activation of fibrinolysis is triggered by the presence of fibrin, and the role of tissue-type plasminogen activators (t-PA) at the site of fibrin formation in particular is emphasized. The process is regulated by physiological inhibitors, of which alpha 2-antiplasmin, histidine-rich glycoprotein and plasminogen activator inhibitor are reported to be of major physiological significance. The role of fibrinolysis in the regulation of the dynamic haemostatic balance is discussed, elucidated through examples of congenital deficiencies of the coagulation and the fibrinoytic system. Pharmacological inhibitors of fibrinolysis (i.e. epsilon-aminocaproic acid and tranexamic acid) and their possible effect on the haemostatic system are described. The systemic effects on the fibrinolytic system of surgery and oral surgery is reviewed, and it is concluded, that oral surgery has insignificant effects on blood fibrinolysis. In contrast, oral surgery induces changes of fibrinolysis in the oral environment; initially the fibrinolytic activity of saliva is reduced, due to the presence of inhibitors of fibrinolysis originating from the blood and the wound exudate. When bleeding and exudation cease, the fibrinolytic activity of the saliva will increase. Plasminogen and plasminogen activator, identified as t-PA are present in the oral environment under physiological conditions. Plasminogen is secreted in the saliva and the sources of t-PA include oral epithelial cells and gingival crevicular fluid. The presence of plasminogen and t-PA in the oral environment implies that when fibrin is present (i.e. after surgery), fibrinolysis is triggered. Haemorrhagic complications to oral surgery in patients without known defects of the coagulation system is reviewed. It is concluded that the investigations conducted to the present day do not permit final conclusions with respect to the pathophysiological role of defects in the coagulation and the fibrinolytic systems for the development of bleeding after oral surgery. Further investigations are necessary in order to clarify these aspects, and should include extensive laboratory analyses to reveal rare congenital defects such as factor XIII- and alpha 2-antiplasmin deficiencies.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Haemostasis in oral surgery--the possible pathogenetic implications of oral fibrinolysis on bleeding. Experimental and clinical studies of the haemostatic balance in the oral cavity, with particular reference to patients with acquired and congenital defects of the coagulation system. 180 33

The effect of recombinant hirudin (r-hirudin, LU 52369) and unfractionated heparin on recombinant tissue-type plasminogen activator (rt-PA; LU 50232) thrombolysis and reocclusion rates after successful thrombolysis was studied in a copper-coil-induced thrombus model in the iliac artery of anesthetized rabbits. Simultaneous administration of rt-PA and recombinant hirudin (r-hirudin) at a dose not affecting the partial thromboplastin time (PTT) increased the number of recanalized arteries significantly. The incidence of reocclusion was drastically reduced from 100% to less than 25%. At a dose increasing PTT twofold, unfractionated heparin had no effect on the incidence of reperfusion and reocclusion. These experimental data indicate that the combination of rt-PA with low-dose r-hirudin may be useful for the prevention of early reocclusion in thrombolytic therapy.
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PMID:Effect of recombinant hirudin (LU 52369) on reocclusion rates after thrombolysis in rabbits. 189

Development of thromboplastin (tpl) and plasminogen activator (PA) activity in monocytes and the effects of high doses of corticosteroids (HCD) on these activities were studied in patients undergoing a standardized surgical trauma. Twelve patients who received uncemented total hip prostheses were divided into a nonsteroid group (n = 6) and a steroid group (n = 6). We found no significant differences between the two patient groups regarding tpl or PA activities of peripheral blood mononuclear cells (PBM) isolated during the postoperative phase. However, in the nonsteroid group there was a tendency for increased expression of procoagulant activity and decreased fibrinolytic activity on the 1st postoperative day, favoring the formation of fibrin in the monocyte microenvironment. Further, PBM isolated on the 1st and 2nd day after surgery were significantly less capable of generating tpl activity on endotoxin stimulation than cells isolated preoperatively. This was not the case in the steroid group. These patients had also a tendency for decreased fibrinolysis at the end of the 1st postoperative week, indicating increased imbalance towards a more thrombotic stage after surgery.
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PMID:Generation of procoagulant (thromboplastin) and plasminogen activator activities in peripheral blood monocytes after total hip replacement surgery. Effects of high doses of corticosteroids. 189 63

We evaluated the effect of the RGD-containing peptide, echistatin, on thrombolysis time and acute reocclusion in a canine model of coronary thrombosis/thrombolysis. Occlusive thrombus formation was induced by electrical injury, via a stimulating electrode, to the endothelial surface of the circumflex coronary artery in the open-chest, anesthetized dog in the presence of a critical stenosis. Fifteen minutes after occlusive thrombus formation, dogs received either an intravenous infusion of vehicle (saline at 0.1 ml/min) or echistatin (15 micrograms/kg/min i.v.). Heparin was given as an initial bolus (100 U/kg i.v.) 15 min after thrombus formation and repeated at hourly intervals (50 U/kg). This dose of heparin increased activated partial thromboplastin time to 1.5- to 2.5- fold over control. Thrombolysis was induced with recombinant tissue-type plasminogen activator (tPA) at a total dose of 1 mg/kg, intravenously administered over 90 min with 10% given as an initial bolus. The vehicle-treated animals reperfused at 48 +/- 9 min with a reperfusion incidence of 60% (3/5). The echistatin-treated animals reperfused at 46 +/- 5 min with a reperfusion incidence of 100% (5/5). After stopping the tPA infusion, acute reocclusion occurred in 100% (3/3) of the vehicle-treated dogs and in only 20% (1/5) of the echistatin-treated dogs. Echistatin caused a greater than 5-fold increase in buccal mucosa bleeding time and almost completely inhibited ex vivo platelet aggregation to ADP, collagen, and U-46619. Residual thrombus wet weight, determined at the end of the experiment, was significantly lower for the echistatin group (2.1 +/- 0.2 mg) compared to the vehicle group (5.8 +/- 0.7 mg).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prevention of reocclusion following tissue type plasminogen activator-induced thrombolysis by the RGD-containing peptide, echistatin, in a canine model of coronary thrombosis. 194 98

To investigate the coagulant and fibrinolytic potential of peritoneal macrophages, after short-term exposure to dialysis solutions intraperitoneal (IP) injection of these hyperosmolar glucose solutions was performed in rats. During the 72-hour postinjection period, the dialysis solutions and, as controls, Ringer's lactate and Ringer's lactate-glucose all induced a similar increase in the number of polymorphonuclear cells and macrophages within a maximum of 24 or 48 hours after their IP injection. These findings demonstrate that IP injection of any dialysis solution results in a moderate non-specific inflammatory cell harvesting. Compared with activity induced by the control solutions, no significant increase of procoagulant and fibrinolytic activities, identified respectively by the presence of thromboplastin and plasminogen activator, was observed in peritoneal macrophages obtained 48 hours after injection of the solution with the highest glucose concentration. However, the level of procoagulant activity could increase as a result of different manufacturers' processing of the solutions. That the basal level of macrophage functions may be modified suggests that this cell may initiate coagulolytic conditions in the peritoneal cavity, especially in the course of IP injection of dialysis solutions.
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PMID:Evaluation of macrophage procoagulant and fibrinolytic activities induced by peritoneal dialysis solutions. 200 76

Fibrin deposition in response to bacterial peritonitis appears to predispose to residual infection in the peritoneal cavity. Our previous studies have demonstrated that intraperitoneal fibrinolysis using human recombinant tissue plasminogen activator (t-PA) prevented abscess formation in a rat intra-abdominal sepsis model. To investigate the potential adverse side effects of its use in the peritoneal cavity, the effect of t-PA on colonic anastomotic wound healing and on systemic coagulation parameters was examined in the rat. T-PA did not adversely affect colonic healing five and ten days after anastomosis. In animals infected intraperitoneally at the time of the anastomosis, t-PA reversed the inhibition of healing induced by perianastomotic abscesses at five days. This effect was mediated by the ability of t-PA to prevent perianastomotic abscess formation. After intraperitoneal administration, t-PA had no effect on prothrombin and partial thromboplastin times in either uninfected or infected animals and there was no evidence of clinical bleeding related to its use. These studies suggest that intraperitoneal fibrinolysis using t-PA may provide a safe, effective form of adjuvant therapy in the management of fibrinopurulent peritonitis.
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PMID:Tissue plasminogen activator reverses the deleterious effect of infection on colonic wound healing. 210

We investigated whether clinical and laboratory variables can predict perfusion status after t-PA administration, by using the data from 138 patients who received t-PA during the Thrombolysis in Myocardial Infarction (TIMI) I study. All clinical and laboratory variables that were collected at baseline or during perfusion for TIMI I were evaluated by the current study. Via stepwise discriminant analysis, 7 variables were closely associated with perfusion status at 90 minutes (listed in the order of their discriminant effect): baseline grade of stenosis in the infarct-related coronary artery, whether nausea was present during the infusion, baseline aspartate aminotransferase (SGOT) concentration, whether arrhythmias were present during the infusion, baseline fibrinogen concentration, baseline partial thromboplastin time, and baseline diastolic blood pressure. Baseline severity of stenosis and the likelihood of there being reperfusion were inversely related. Eighty-four percent of patients with adequate perfusion after 90 minutes of t-PA infusion were classified correctly, but only 50% of those without perfusion at 90 minutes were classified correctly. In addition, since 70% of the TIMI I patients, on average, did achieve perfusion, the use of these 7 variables added little predictive information. Our findings suggest that 1) there is as yet no practical way to predict reperfusion after t-PA therapy and 2) the severity of coronary stenoses, if known ahead of time, should be considered when selecting patients for thrombolytic therapy.
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PMID:Prediction of coronary artery reperfusion after tissue plasminogen activator infusion. 211 85


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