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:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acylated plasminogen-streptokinase activator complex (APSAC; antistreplase) is an inactive complex of human plasminogen and streptokinase. When it is injected, a controlled deacylation of the catalytic center occurs, activating the complex so that thrombolysis may begin. This process extends the half-life of streptokinase, allowing for 4-6 hours of fibrinolytic activity. Anistreplase has demonstrated equivalent efficacy to intracoronary streptokinase with regard to reperfusion rates in acute myocardial infarction. In addition, patients have shown a 56% reduction in mortality at 28 days with anistreplase compared to heparin. The adverse effect profile of anistreplase includes minor bleeding and hematoma formation at the site of venipuncture, hypotensive and bradycardic episodes, arrhythmias, facial flushing, fever, and rarely, allergic reactions. Serious bleeding reactions are uncommon, with the frequency of cerebrovascular accident reported at 0.4-0.6%. The special advantage of anistreplase is its administration as a 30-U intravenous bolus injected over 5 minutes, eliminating the need for long infusions and increasing the ease of administration. Based on its efficacy and ease of administration, anistreplase may become the drug of choice in the emergency treatment of acute myocardial infarction.
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PMID:Acylated plasminogen-streptokinase activator complex: a new approach to thrombolytic therapy. 214 Aug 89

Thrombotic disorders such as myocardial infarction and stroke are the leading causes of death and disability in industrialized nations. Timely institution of thrombolytic therapy can achieve a reduction of infarct size, a preservation of left ventricular function, and a reduction in mortality. The administration of streptokinase, urokinase, and acylated plasminogen-streptokinase activator complex (APSAC) can be associated with a complete breakdown of the hemostatic system. Tissue-type plasminogen activator (t-PA) and single-chain urokinase-type plasminogen activator (scu-PA, prourokinase) are more fibrin specific; however, at the large dosages of activator needed for therapeutic efficacy, bleeding complications are still a problem. New approaches to optimizing the risk/benefit ratio for the patient by improving efficacy without sacrificing specificity include the use of synergistic combinations of plasminogen activators, mutants of t-PA and scu-PA, chimeric molecules, and antibody-targeted thrombolytic agents. The last approach opens the possibility of targeting several different components of the clot with either fibrinolytic or antiplatelet effector functions in one optimized molecule.
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PMID:Future directions in plasminogen activator therapy. 218 64

All thrombolytic agents convert plasminogen to plasmin, either directly as urokinase, saruplase and alteplase or indirectly as streptokinase. In the majority of recent clinical trials with streptokinase, a high-dose (0.7 to 1.5 mega-units), brief-duration (30 to 90 minutes) drug regimen has been used. After a mean time interval of 4.2 hours from onset of pain to intravenous infusion of streptokinase, a repeat angiography performed 60 to 90 min after start of thrombolytic treatment gives a reperfusion rate of 43%, the corresponding figures for anistreplase, saruplase and alteplase are 56%, 67% and 69%. The patency rates of similar studies with the same endpoint are for streptokinase 56%, for anistreplase 77%, for urokinase 62%, for saruplase 71% and for alteplase 75%. The reduction in hospital mortality in randomized trials with intravenous streptokinase (high-dose) is in 6 large studies in a total of 23,267 randomized patients from 10.7% in the control group to 7.0% in the streptokinase group. In a mortality study involving 1,004 patients randomized to intravenous anistreplase or placebo the 30-day mortality was reduced by 47%, from 12.2% to 6.4%. A large trial in which 5,011 patients were randomized to alteplase or placebo, the 30-day mortality was 7.2% compared to 9.8% in controls, a reduction of 27% by alteplase. In another trial 721 patients were randomized to placebo or alteplase; all patients were on aspirin. The 14-day mortality was only 2.8%, 51% less than that in the control group. It is most important that the favourable impact on hospital survival is maintained at 1 year with any thrombolytic drug. Large scale trials directly comparing mortality after alteplase, streptokinase or anistreplase are being performed or in the planning phase. The risk of bleeding exists with any thrombolytic agent but intracranial bleeding is the most serious one. In a large trial on 5,011 patients with acute myocardial infarction, stroke occurred in 1.1% of alteplase treated patients compared with 1.0% in placebo treated controls. Crucial problems are residual stenosis of the coronary artery and reocclusion. Urgent angioplasty does not seem to be the right answer; more effective antithrombotic strategies still have to be developed.
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PMID:[Thrombolytic therapy in acute myocardial infarct]. 219 44

The oral administration of the thrombolytic agent urokinase was studied. Its intestinal absorption was demonstrated in dogs by the observation of a prolonged urokinase activity in plasma with a concomitant lytic effect on artificial thrombi after intraduodenal administration. In situ intestine-liver perfusion experiments in dogs revealed that a plasminogen activator, distinct from the administered urokinase--thus presumed to be a tissue plasminogen activator--was liberated into the circulation in association with intestinal absorption of urokinase. Its absorption in men was demonstrated in a cross-over double blind study of oral urokinase on healthy subjects. On the basis of these results a double blind clinical trial of oral urokinase was performed on 101 patients with cerebral thrombosis. The results showed the usefulness of urokinase treatment, particularly in the early phase after the onset of stroke. The clinical effect was influenced by the plasma plasminogen level.
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PMID:Oral urokinase: absorption, mechanisms of fibrinolytic enhancement and clinical effect on cerebral thrombosis. 242 93

Recognition that myocardial infarction is caused by coronary thrombosis has stimulated a search for a safe, rapidly acting, and effective thrombolytic regimen. Tissue plasminogen activator (t-PA) can provide relatively clot-selective thrombolysis, but one quarter of patients fail to achieve reperfusion, lysis speed is not optimal, and higher doses have been associated with an increased incidence of hemorrhagic stroke. We report the results of a multicenter study of pro-urokinase, a second naturally occurring plasminogen activator that has structural similarities to t-PA but has a different mechanism of action. Pro-urokinase was administered 3.9 +/- 1.1 hours after the onset of chest pain to 40 patients with acute myocardial infarction with angiographically confirmed complete coronary occlusion (TIMI grade 0). After a 90-minute intravenous infusion of pro-urokinase (4.7-9 million units, 36-69 mg) 51% (20 of 39) of the patients demonstrated reperfusion (TIMI grade 2 or 3) occurring 64.8 +/- 22.3 minutes after initiation of therapy. Fibrinogen levels fell only 10 +/- 17% from baseline, confirming the fibrin specificity of pro-urokinase. As with t-PA, however, this specificity was only relative. alpha 2-Antiplasmin decreased to 39% and plasminogen decreased to 64% of initial values. Fibrinogen degradation products increased 63% and the fibrin-specific D-dimer increased 8.7-fold. Thus, pro-urokinase produces relatively clot-selective coronary thrombolysis similar to that produced by t-PA, but the use of either pro-urokinase or t-PA alone in higher doses would be likely to produce more nonspecific effects.
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PMID:Clot-selective coronary thrombolysis with pro-urokinase. 249 4

Lipoprotein(a) [Lp(a)] is a macromolecular complex found in human plasma that combines structural elements from the lipoprotein and blood clotting systems and that is associated with premature coronary heart disease and stroke. It is assembled from low-density lipoprotein (LDL) and a large hydrophilic glycoprotein called apolipoprotein(a) [apo(a)], which is homologous to the protease zymogen plasminogen. Plasma Lp(a) concentrations vary 1000-fold between individuals and represent a continuous quantitative genetic trait with a skewed distribution in Caucasian populations. Variation in the hypervariable apo(a) gene on chromosome 6q2.6-q2.7 and interaction of apo(a) alleles with defective LDL-receptor genes explain a large fraction of the variability of plasma Lp(a) concentrations. Though of high theoretical and practical interest, many aspects of the metabolism, function, evolution, and regulation of plasma concentrations of Lp(a) are presently unknown, controversial, or mysterious.
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PMID:The mysteries of lipoprotein(a). 253 Jun 31

In 75 patients with acute cerebral vascular disease (infarction 43, TIA 4, cerebral hemorrhage 25, subarachnoid hemorrhage 3), the plasma levels of Antithrombin-III (AT-III) and plasminogen (Plg) were measured within one week stroke patient and with 27 non-stroke patient as controls. The results showed: the plasma AT-III level was of no significant difference between the patients with hemorrhagic or ischemic cerebral vascular disease group and control group; the plasma plg level was a significant decrease in ischemic cerebral vascular disease groups (cerebral infarction. TIA), and it was of significant difference between the cerebral infarction group, or the TIA group and those of the control group (P less than 0.001 and P less than 0.01) respectively. In view of these results suggest that measuring of Plasma Plg level is a valuable unspecific assays indicator for ischemic cerebral vascular diseases. Finally, the relationship between high coagulation and acute cerebral vascular disease was discussed.
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PMID:[Observation of plasma levels of antithrombin-III and plasminogen in acute cerebrovascular disease]. 262 May 88

Clinical experience with thrombolytics in non-coronary disorders is limited to the plasminogen activators streptokinase, urokinase and alteplase; therapeutic trials with anistreplase (APSAC) are almost, and with saruplase completely, limited to acute myocardial infarction. In terms of thrombus clearance, thrombolytic drugs are superior to heparin in patients with recent deep vein thrombosis in the pelvis or lower limbs. In aggregate, thrombi younger than 8 days are lysed in approximately 60% of patients treated with streptokinase, urokinase or alteplase. The results of studies assessing the subsequent development of the postphlebitic syndrome are conflicting, but most suggest that thrombolytic therapy can reduce symptoms of chronic venous insufficiency. Currently, the combination of systemic thrombolytic drugs followed by heparin is recommended for patients with acute major pulmonary embolism who are haemodynamically unstable. Streptokinase, urokinase and alteplase have all been shown to accelerate the lysis of pulmonary emboli and to decrease pulmonary vascular obstruction and pulmonary hypertension. Systemic venous or intrapulmonary infusions of alteplase offers the same benefit in terms of angiographic and haemodynamic improvement. A short infusion of 100 mg alteplase over 2 hours seems to be superior to a 24-hour infusion of urokinase. None of the thrombolytic trials in pulmonary embolism have been large enough to demonstrate a reduction in mortality. It is now generally accepted that, unless contraindicated, thrombolytic therapy is the front-line treatment for patients with massive pulmonary embolism and major haemodynamic disturbance. The local treatment of acute arterial occlusion in limb arteries results in rapid clearing of the artery in 67% of patients treated with streptokinase; the corresponding success rates for urokinase and alteplase are 81% and 88 to 94%, respectively. The main question appears to be the identification of patients in whom local thrombolysis is the treatment of choice, as opposed to established therapeutic modalities. Thrombolytic treatment following a major ischaemic stroke is hazardous, although clinical improvement has been noted in a minority of patients with recanalised cerebral arteries. The safety and efficacy of thrombolytic treatment remains unproven for this indication, and its use must be restricted to experimental protocols. Thrombolytic treatment in retinal artery or vein occlusion has, in practice, been abandoned.
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PMID:Use of thrombolytic drugs in non-coronary disorders. 268 38

PARD is a prospective study sponsored by the German research council with the aim to establish whether spontaneously enhanced platelet aggregation or changes of other hemostatic parameters are risk factors for new vascular occlusion in diabetic patients. Hemostatic parameters have been measured in diabetic patients at 3 month-intervals (363 patients aged 45-65 at recruitment). Of the 232 men, 53 were on diet, 104 on oral antidiabetic drugs and 75 on insulin. Of 131 women 16 were on diet, 46 on oral antidiabetic drugs and 69 on insulin. Baseline data and preliminary results obtained between May 1977 and December 31, 1983 are presented. 22 patients have died. 17 diet from cardiovascular disease, 3 from pancreatic cancer and 2 from other causes. 51 patients suffered a myocardial infarction, stroke or peripheral arterial occlusions. The mean levels of spontaneous aggregation (angle alpha-PAT III), F VIIIC, F VIII R:AG, fibrinogen, antithrombin III and plasminogen were higher in men who died or suffered cardiovascular occlusions than in those without these events. In women this difference is less pronounced or absent. In women the mean values of several hemostatic parameters at baseline were higher than in men and the incidence of cardiovascular occlusions was lower. The interim results lead to the hypothesis that spontaneous aggregation, high levels of F VIIIC, F VIII R:AG and to some extent also high levels of fibrinogen, antithrombin III and plasminogen may be indicators of progressive vascular disease and could be useful as predictors of vascular occlusions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:PARD: platelet aggregation as a risk factor in diabetics: results of a prospective study. 293 12

Systemic fibrinolytic therapy for acute stroke is no longer recommended because of resulting systemic fibrinolysis and the risk of intracerebral hemorrhage. Human tissue-type plasminogen activator (TPA) is a native enzyme that converts plasminogen to plasmin with subsequent clot lysis. The affinity for plasminogen is increased several-fold when the substrate is bound to fibrin. At appropriate dosage, "clot-specific" thrombolysis may be achieved at the surface of the thrombus without creating systemic fibrinolysis. The authors designed a study to evaluate the effect of intravenous TPA administered 2 hours after acute thromboembolic stroke in rats. This time course was chosen to simulate an analogous clinical situation. Middle cerebral artery embolic stroke was caused by intracarotid injection of 0.025 cc of human blood clot in 16 rats. Regional cerebral blood flow, measured by the hydrogen clearance technique, and electroencephalographic (EEG) recordings were obtained every 30 minutes for 5 hours after thromboembolism. Eight rats received a 1-hour infusion of intravenous TPA (1.5 mg/kg) 2 hours after injection of emboli. Ipsilateral blood flow increased significantly within 30 minutes after intravenous TPA and reached preembolic levels within 60 minutes. Blood flow did not improve in the eight control rats throughout the experiment. Power spectral analysis of the EEG recordings showed improvement in the treated group compared to the control group. Postmortem angiography revealed proximal middle cerebral artery occlusion in control animals and patent middle cerebral arteries in TPA-treated animals. Serum fibrinogen and fibrin split products were unchanged in both groups, indicating the absence of systemic fibrinolysis. There were no intracerebral hemorrhages. It is concluded that, in this rat model, TPA increases blood flow with subsequent improvement in the EEG recording after thromboembolic stroke without evidence of systemic fibrinolysis. Intravenous TPA may be useful in the treatment of acute stroke in man.
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PMID:Recombinant human tissue-type plasminogen activator therapy in acute thromboembolic stroke. 311 28


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