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

In this article we report on the development, introduction, and maintenance of a policy to promote rational use of thrombolytic drugs by hospital doctors. The work was undertaken within the framework of the voluntarily operated Riverside East drugs guide (formulary) management system (FMS). The policy was introduced in October 1988 and revised in November 1989 to coincide with the launch of the new, expensive thrombolytic drugs, alteplase (rt-PA, Actilyse) in 1988 and antistreplase (APSAC, Eminase) in 1989. Streptokinase was recommended as the first-line drug for patients who had not received it within the last 6 months. The policy was communicated to all staff in meetings and a drugs guide bulletin and reinforced by ward pharmacists. Results over a 15 month period show voluntary compliance by prescribers with the recommended policy. One hundred and seventy-four patients (22% cardiac admissions) presented with acute myocardial infarction. Of these 43 (25%) received streptokinase, the first-line recommended drug, 7 received alteplase and none received anistreplase. The savings in drug expenditure from using streptokinase rather than alteplase or anistreplase for the 15-month period of investigation were over pounds 27,000. This work represents an example of the effectiveness of the Riverside East FMS model in influencing prescribing behaviour.
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PMID:Medical audit and formulary management: a policy for rational use of thrombolytic drugs. 190 56

Three agents approved for the lysis of thrombi in coronary arteries--alteplase, anistreplase and streptokinase--have undergone critical clinical experimental trials in Europe and the United States. Global comparison of their efficacy shows that alteplase is slightly more effective (71 percent) in restoring patency than anistreplase (60 percent) and streptokinase (58 percent). Streptokinase and anistreplase are allergenic, and repeat administration is not feasible in the short-term, a distinct advantage for alteplase. More accurate dosing of thrombolytic agents and skillful use of aspirin and heparin improve the efficacy of thrombolytic therapy but can also increase the risk of bleeding. A recanalization rate of 90 percent or more could be achieved if the thrombolytic agent is administered within the first hour after thrombosis. Administration this soon after the development of thrombosis may be possible if the agent is given outside the hospital by practicing physicians or, perhaps, paramedics.
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PMID:Coronary artery thrombolysis: comparison of approved agents. 190 85

Streptokinase, the first of the thrombolytic agents to be used in acute myocardial infarction, has now been administered to many thousands of patients with this condition. Since early intervention and accessibility of care is paramount in these patients, intravenous infusion of streptokinase has largely replaced intracoronary use. Results of major trials (GISSI, ISIS-2 and ISAM) comparing streptokinase with standard treatment in more than 30,000 patients prove convincingly that intravenous streptokinase increases patient survival after myocardial infarction. The largest trial, ISIS-2, demonstrated a 23% reduction in 5-week vascular mortality after streptokinase use. The greatest benefits occur where streptokinase infusion is initiated early after symptom onset, although late benefit has been observed in patients treated up to 24 hours after pain onset. Importantly, mortality is further decreased by combining streptokinase with aspirin, as shown by a 53% reduction in mortality using the combination in the ISIS-2 trial. Mortality has also been reduced in trials investigating the use of the thrombolytic agents rt-PA and anistreplase. Streptokinase and rt-PA produced similar reductions in mortality in the recent GISSI-2 and International t-PA/Streptokinase Mortality trials, findings which may be further clarified by ongoing comparative trials such as ISIS-3. Reperfusion of about 50 to 60% of occluded coronary arteries occurs with intravenous streptokinase, and left ventricular function is improved. Direct comparisons with rt-PA show a superior effect for the newer agent on early reperfusion, but a similar ability to salvage myocardial function. The complexities of the relationship between reperfusion, left ventricular function and mortality constitute an area of considerable clinical interest requiring further study to clearly differentiate between the drugs available to the physician. The most common adverse events observed during intravenous streptokinase infusion are bleeding complications. An incidence of 3.6% for minor bleeding and 0.4% for major haemorrhage (requiring transfusion) is derived from the combined results of the GISSI and ISIS-2 studies. Bleeding does not appear to be more frequent or severe with intravenous streptokinase than with the more fibrin-selective agent, rt-PA. While the risk to benefit ratio of sequential heparin following streptokinase therapy remains equivocal, the adjuvant use of aspirin confers a clinical advantage over streptokinase alone. In conclusion, streptokinase has now been proven to reduce mortality in patients with acute myocardial infarction, with an acceptable risk of bleeding complications. Given the substantial data that have now accumulated with extensive clinical experience, intravenous streptokinase should be considered a first-line agent in suitable patients.
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PMID:Intravenous streptokinase. A reappraisal of its therapeutic use in acute myocardial infarction. 219 49

Streptokinase-plasmin complex (SkPl) was prepared with human plasminogen. Regulation of SkPl and plasmin by the plasma proteinase inhibitors, alpha 2-antiplasmin (alpha 2AP) and alpha 2-macroglobulin (alpha 2M), was studied as a function of temperature in plasminogen-depleted human plasma, mouse plasma, and solutions of purified proteins. The reaction of plasmin with proteinase inhibitors in human plasma was complete. alpha 2AP was the predominant inhibitor. The fraction of alpha 2M-plasmin recovered was not affected significantly by incubation temperature. In contrast, the reaction of SkPl with human proteinase inhibitors was markedly temperature dependent. The apparent second-order rate constant for the reaction of SkPl with purified alpha 2AP at 37 degrees C (1.5 x 10(2) mol/L-1 s-1) was greater than 150-fold higher than the constant derived at 4 degrees C. In human plasma and in solutions containing mixtures of purified human proteins, alpha 2AP was the principal inhibitor of SkPl. Elevating the temperature enhanced the reaction of SkPl with alpha 2AP and alpha 2M comparably. Equivalent results were obtained when incubations were performed in platelet-rich plasma (PRP) or whole blood. In murine plasma, SkPl reacted readily with the proteinase inhibitors. The principal inhibitor of SkPl was alpha 2M. Maximum reaction between SkPl and murine alpha 2M was observed at 37 degrees C; however, significant reaction also occurred at 4 degrees C. alpha 2 AP was the predominant inhibitor of plasmin in mouse plasma. Reaction of alpha 2AP with SkPl in murine plasma was significant only after the alpha 2M was inactivated with methylamine. These results were not affected by platelets or whole blood cells. We conclude that the thrombolytic efficacy of streptokinase reflects not only the nature of the plasminogen activator complex but also the function of the proteinase inhibitors.
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PMID:Regulation of streptokinase-human plasmin complex by the plasma proteinase inhibitors alpha 2-antiplasmin and alpha 2-macroglobulin is species specific and temperature dependent. 246 Jan 59

Thrombolytic efficacy is directly related to thrombus age. We used recombinant tissue plasminogen activator (rt-PA), Streptokinase (SK) and Urokinase (UK) on a seven days old inferior vena cava thrombus model. "In vitro" clot lysis assays with fibrinogen-I125 were also evaluated with the same agents at 1, 3 and 7 days. Fibrinogen, D-D dimer and t-PA were measured. Experiments with 40 controls and 27 rt-PA treated animals showed a significant decrease in thrombus weight (8.5 +/- 1.1 mg) vs. (4.2 +/- 0.6 mg) (p less than 0.01). Fibrinogen concentration in rt-PA group decreased significantly (1032 +/- 123 mg/dl) vs. (202 +/- 32 mg/dl) (p less than 0.001). "In vitro" rt-PA showed a marked lytic effect in a wide range (100-4 IU/ml). Fibrin selective agents as rt-PA may be more effective than non selective ones in the treatment of fully developed thrombus.
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PMID:Thrombus age and tissue plasminogen activator mediated thrombolysis in rats. 251 87

Thrombolytic therapy for the removal of intravascular thrombi was introduced when streptokinase was first given to humans 40 years ago, the same year the American College of Cardiology was founded. Streptokinase was first administered to patients with acute myocardial infarction in 1959. Today, thrombolytic therapy has been established to offer significant benefits to patients with acute myocardial infarction provided they are brought to medical attention early enough after the onset of symptoms. The two major agents, streptokinase and recombinant tissue-type plasminogen activator (rt-PA), have been shown to result in reperfusion of infarct-related arteries, to salvage ischemic myocardium, to improve myocardial performance and to reduce mortality. In spite of these impressive gains, this novel therapy has shortcomings. The interval from the start of thrombolytic treatment to coronary reperfusion varies significantly from patient to patient and may, at times, be too long to produce a real benefit in terms of salvage of ischemic myocardium. The rate of reocclusion lies somewhere between 10% and 20% and appears not to be influenced by concomitant heparin anticoagulation. The rate of bleeding complications even with the "fibrin-specific" rt-PA is higher than anticipated and may range from 10% to 30%. As a consequence, intensive efforts are being directed at the development of improved thrombolytic agents and for adjunctive therapy evaluating better anticoagulants than heparin and better antiplatelet agents than aspirin. This review is a status report summarizing where we are in thrombolytic therapy in acute myocardial infarction, where we need to improve treatment results and what is being done mainly at the preclinical level to bring about such improvements.
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PMID:After coronary thrombolysis and reperfusion, what next? 267 87

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

Streptokinase and urokinase have proved to be useful in a limited number of clinical conditions. Mainly because of the risk and unpredictability of bleeding with this first generation of thrombolytic agents, thrombolysis has not been ingrained in medical practice. In the interim, more fibrin-specific thrombolytic agents have been developed such as acylated streptokinase-human plasminogen complex, tissue-type plasminogen activator (t-PA) and single chain urokinase-type plasminogen activator (scu-PA or pro-urokinase). Only the latter two drugs do not induce major systemic fibrinogenolysis at thrombolytic effective doses. These two agents, obtained by recombinant techniques, as well as acylated streptokinase-plasminogen complex are available for clinical investigations. The first results of systemic administration of recombinant tissue-type plasminogen activation (t-PA) in patients with acute myocardial infarction were published and are promising. Continued experimentation with t-PA and pro-urokinase in evolving myocardial infarction and other thrombotic disorders is essential to better delineate their therapeutic index.
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PMID:Pharmacology of thrombolytic drugs. 309

Fibrinolysis is a physiological process which aims at dissolving intravascular thrombi and is mediated by activation of plasminogen to plasmin. Streptokinase (SK) and urokinase (UK) are non-specific plasminogen activators. They have proved effective as thrombolytic agents, but their use is limited by the risk of haemorrhages due to systemic fibrinogenolysis. More fibrin-specific drugs have recently been developed. One is a tissue plasminogen activator (t-PA), the other is a urokinase precursor (pro-UK), also called single chain urokinase plasminogen activator (scu-PA). Genetic engineering techniques have resulted in the large-scale production of a "recombinant t-PA" (rt-PA) and a "recombinant scu-PA" (r scu-PA) for therapeutic use, notably in acute myocardial infarction. In vitro, these two drugs exhibit a thrombolytic activity that is equal to, or greater than that of SK or UK. In vivo, their fibrinogenolytic effect is less pronounced, and their thrombolytic effect greater than those of SK or UK. "Acyl-enzymes" have more recently emerged. These are inactive acylated SK-plasminogen complexes which progressively become effective in plasma after deacylation. So far, the most extensively studied of these complexes is BRL 26921 (anisoylated plasminogen streptokinase activator complex, or APSAC) which is administered by bolus intravenous injection. It is more thrombolytic than SK but produces systemic fibrinogenolysis to an equivalent degree. Injected intravenously (by infusion or bolus) during the first hours of a coronary infarction these three new thrombolytic agents have proved effective in promoting coronary reperfusion, with an early coronary patency rate of 70-75%.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[New thrombolytic agents in myocardial infarction]. 312 22

In this study, we examined the effects of various plasminogen activators on arachidonic acid release and prostacyclin biosynthesis in cultured rat aortic smooth muscle cells and bovine pulmonary artery endothelial cells. Prostacyclin was the major product formed from arachidonic acid in aortic smooth muscle cells and endothelial cells. When intact cells were incubated with streptokinase, one of the plasminogen activators, a significant stimulatory effect on prostacyclin biosynthetic activity in cells was evident without any cellular damage at all concentrations used (1-5,000 units/ml). Streptokinase also caused a marked release of arachidonic acid. However, when it was incubated with cell-free homogenates and [3H]arachidonic acid, it did not show any effects on prostacyclin biosynthesis. The addition of urokinase and tissue-type plasminogen activator had no effect on prostacyclin biosynthesis. Urokinase stimulated the release of arachidonic acid from cells, but it did not show any effect on prostacyclin release at any concentration of urokinase (1-5,000 units/ml). The release of arachidonic acid and the increased prostacyclin synthesis were not observed when tissue-type plasminogen activator was added. These results indicate that, among various plasminogen activators investigated, only streptokinase causes the release of arachidonic acid and prostacyclin. This could be a beneficial effect in thrombolytic therapy.
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PMID:Effect of various plasminogen activators on prostacyclin synthesis in cultured vascular cells. 314 95


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