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

We report on 10 patients with thromboembolic occlusion of the middle cerebral artery (MCA) who underwent local thrombolytic therapy. Six patients developed a MCA occlusion during long-standing interventional neuroradiological procedures, while four had a proven or suspected cardio-embolic stroke. Streptokinase or urokinase was applied by a microcatheter placed into the thrombus within six hours of clinical onset. Complete or partial revascularization was achieved in all patients. Recovery was complete in seven and partial in three of the patients. In two patients, minor haemorrhagic transformation of the infarct occurred, which did not lead to neurological deterioration. It is concluded that in a selected group of patients with MCA occlusion, local thrombolytic therapy represents a safe and effective therapy.
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PMID:Local thrombolytic therapy for thromboembolic occlusion of the middle cerebral artery. 135 78

Streptokinase is the thrombolytic agent most commonly used for the treatment of acute myocardial infarction. We report eight patients who developed late uncommon adverse reactions to streptokinase probably due to immune complex disease. The clinical manifestations included vasculitic rashes, abnormal renal and liver function tests and a syndrome resembling adult respiratory distress syndrome. Major adverse events with streptokinase such as stroke, bleeding and other allergic reactions, have been previously documented but the morbidity related to delayed reactions has not been widely recognised. These reactions produced significant morbidity resulting in prolonged hospital stay and may need to be considered in the decision to use streptokinase.
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PMID:Streptokinase morbidity--more common than previously recognised. 138 52

Thrombotic and thromboembolic occlusions of arteries and veins represent acute and often life threatening complications requiring immediate therapeutic intervention. The most important clinical manifestations of vascular occlusions are myocardial infarction, peripheral arterial occlusion, pulmonary embolism, deep vein thrombosis and ischemic stroke. The logical approach for the treatment in these indications is the early restoration of blood circulation in order to preserve the organ deprived from oxygen supply and to prevent chronic sequelae. Recanalization by surgical intervention is only possible in some indications and is restricted to special clinics. Thrombolysis induced by agents activating plasminogen imitates the physiologic way of dissolving an occlusive clot by shifting the balance of the hemostatic and fibrinolytic system towards fibrinolysis. Streptokinase was the first effective thrombolytic drug used in patients. In the first years of its usage the identification of the appropriate indication and the dosage and application regimens used were based on little pharmacological knowledge and lack of appropriate dose finding. This resulted in suboptimal therapeutic efficacy and severe bleeding. Development of advanced diagnostic methods, more appropriate dose and application regimens and the development of more specific fibrinolytic drugs like rt-PA led to a remarkable improvement of its benefit-risk ratio and made thrombolysis to a widely accepted form of therapy in thrombotic and thromboembolic diseases. Early restoration of blood flow however is only the starting point of a therapeutic strategy, aiming at minimizing the risk of recurrence.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thrombolysis: the logical approach for the treatment of vascular occlusions. 152 9

Between 1984 and 1989, 35 patients with recent arterial or graft occlusions have been treated with intra-arterial infusion using sequential association of Urokinase (U.K.) and Lys-Plasminogen. Occlusion was thrombotic in 68.5% of the cases ans embolic in 31.5%, involving 28 native arteries and 7 bypass grafts. The mean duration was 16 days (2 to 90). Continuous infusion of U.K.: 84,000 U.I./H and bolus of Lys-Plasminogen 15 microKatals every 30 minutes were delivered through a catheter embedded into the clot. Intra-venous heparin was always associated. The mean duration of lytic drug infusion was 8 H. Complementary arterial reconstruction by vascular surgery of percutaneous transluminal angioplasty was performed in 23% of the patients. Patients with recent alimentary tract bleeding, hemorragic stroke in the last six months or severe high blood pressures were contra-indicated. Complete lysis was obtained in 23 cases (66%), partial lysis in 7 (20%) and no lysis in 5 (14%). The clinical result was excellent in 24 cases (68.5%), good in 3 (8.5%) and bad in 8 (23%) in which amputation was always necessary. 5 local hematoma (14%) treated by surgery or transfusion and one death (3%) due to neurological complication occurring 24 hours after the end of the procedure were observed. The literature survey has shown that the results of low doses of Streptokinase (S.K.) local infusions were not better, and that higher doses of S.K. or U.K. delivered during a shorter infusion time increased the efficacy of lysis and decreased the rate of hemorragic complications. We have proposed the local thrombolytic treatment to the limb threatening ischemic cases when the traditional medical or surgical techniques where thought to be associated to a high risk of failure or complication. The specific indications are the acute or sub-acute ischemic situation due to atheromatous artery thrombosis, distal or old embolism where the Fogarty catheter is inefficient, and graft thrombosis. Severe acute ischemia with neurologic involvement are not good indications. Local thrombolysis can be successful on arterial occlusion even after one month duration.
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PMID:[Intra-arterial thrombolytic therapy of lower limb ischemia]. 237 17

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

17,187 patients entering 417 hospitals up to 24 hours (median 5 hours) after the onset of suspected acute myocardial infarction were randomised, with placebo control, between: (i) a 1-hour intravenous infusion of 1.5 MU of streptokinase; (ii) one month of 160 mg/day enteric-coated aspirin; (iii) both active treatments; or (iv) neither. Streptokinase alone and aspirin alone each produced a highly significant reduction in 5-week vascular mortality: 791/8592 (9.2%) among patients allocated streptokinase infusion vs 1029/8595 (12.0%) among those allocated placebo infusion (odds reduction: 25% SD 4; 2p less than 0.00001); 804/8587 (9.4%) vascular deaths among patients allocated aspirin tablets vs 1016/8600 (11.8%) among those allocated placebo tablets (odds reduction: 23% SD 4; 2p less than 0.00001). The combination of streptokinase and aspirin was significantly (2p less than 0.0001) better than either agent alone. Their separate effects on vascular deaths appeared to be additive: 343/4292 (8.0%) among patients allocated both active agents vs 568/4300 (13.2%) among those allocated neither (odds reduction: 42% SD 5; 95% confidence limits 34-50%). There was evidence of benefit from each agent even for patients treated late after pain onset (odds reductions at 0-4, 5-12, and 13-24 hours: 35% SD 6, 16% SD 7, and 21% SD 12 for streptokinase alone; 25% SD 7, 21% SD 7, and 21% SD 12 for aspirin alone; and 53% SD 8, 32% SD 9, and 38% SD 15 for the combination of streptokinase and aspirin). Streptokinase was associated with an excess of bleeds requiring transfusion (0.5% vs 0.2%) and of confirmed cerebral haemorrhage (0.1% vs 0.0%), but with fewer other strokes (0.6% vs 0.8%). These "other" strokes may have included a few undiagnosed cerebral haemorrhages, but still there was no increase in total strokes (0.7% streptokinase vs 0.8% placebo infusion). Aspirin significantly reduced non-fatal reinfarction (1.0% vs 2.0%) and non-fatal stroke (0.3% vs 0.6%), and was not associated with any significant increase in cerebral haemorrhage or in bleeds requiring transfusion. An excess of non-fatal reinfarction was reported when streptokinase was used alone, but this appeared to be entirely avoided by the addition of aspirin. Those allocated the combination of streptokinase and aspirin had significantly fewer reinfarctions (1.8% vs 2.9%), strokes (0.6% vs 1.1%), and deaths (8.0% vs 13.2%) than those allocated neither. The differences in vascular and in all-cause mortality produced by streptokinase and by aspirin remain highly significant (2p less than 0.001 for each) after the median of 15 months of follow-up thus far available.
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PMID:Randomised trial of intravenous streptokinase, oral aspirin, both, or neither among 17,187 cases of suspected acute myocardial infarction: ISIS-2. ISIS-2 (Second International Study of Infarct Survival) Collaborative Group. 916 79

17,187 patients entering 417 hospitals up to 24 h (median 5 h) after the onset of suspected acute myocardial infarction were randomized, with placebo control, between i) a 1 h intravenous infusion of 1.5 million units of streptokinase; ii) 1 month of 160 mg/day enteric-coated aspirin; iii) both active treatments; or iv) neither. Streptokinase alone and aspirin alone each produced a highly significant reduction in 5 week vascular mortality: 791/8592 (9.2%) vascular deaths among patients allocated streptokinase infusion versus 1029/8595 (12.0%) among those allocated placebo infusion (odds reduction: 25% +/- 4; 2p less than 0.00001); 804/8587 (9.4%) vascular deaths among patients allocated aspirin tablets versus 1016/8600 (11.8%) among those allocated placebo tablets (odds reduction: 23% +/- 4; 2p less than 0.00001). The combination of streptokinase and aspirin was significantly (2p less than 0.0001) better than either agent alone. Their separate effects on vascular death appeared to be additive: 343/4292 (8.0%) among patients allocated both active agents versus 568/4300 (13.2%) among those allocated neither (odds reduction: 42% +/- 5; 95% confidence limits 34% to 50%). There was evidence of benefit rom each agent even for patients treated late after pain onset (odds reduction at 0-4, 5-12, and 13-24 h: 35% +/- 6, 16% +/- 7 and 21% +/- 12 for streptokinase alone; 25% +/- 7,21% +/- 7 and 21% +/- 12 for aspirin alone; and 53% +/- 8,32% +/- 9 and 38% +/- 15 for the combination of streptokinase and aspirin). Streptokinase was associated with an excess of bleeds requiring transfusion (0.5% versus 0.2%) and of confirmed cerebral hemorrhage (0.1% versus 0.0%), but with fewer other strokes (0.6% versus 0.8%). These "other" strokes may have included a few undiagnosed cerebral hemorrhages, but still there was no increase in total strokes (0.7% streptokinase versus 0.8% placebo infusion). Aspirin significantly reduced nonfatal reinfarction (1.0% versus 2.0%) and nonfatal stroke (0.3% versus 0.6%), and was not associated with any significant increase in cerebral hemorrhage or in bleeds requiring transfusion. An excess of nonfatal reinfarction was reported when streptokinase was used alone, but this appeared to be entirely avoided by the addition of aspirin. Those allocated the combination of streptokinase and aspirin had significantly fewer reinfarctions (1.8% versus 2.9%), strokes (0.6% versus 1.1%), and deaths (8.0% versus 13.2%) than those allocated neither.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Randomized trial of intravenous streptokinase, oral aspirin, both, or neither among 17,187 cases of suspected acute myocardial infarction: ISIS-2.ISIS-2 (Second International Study of Infarct Survival) Collaborative Group. 290 74

In ischaemic stroke, thrombolytic drugs speed the recanalisation of intracerebral arteries. The effects of aspirin are not known. A trial was conducted to determine whether, separately or together, streptokinase and aspirin have clinical benefits in acute ischaemic stroke similar to those in acute myocardial infarction. 622 patients with acute ischaemic stroke within 6 hours of symptom onset were randomised with a 2 x 2 factorial design to (i) a 1-hour intravenous infusion of 1.5 MU streptokinase, (ii) 300 mg/day buffered aspirin for 10 days, (iii) both active treatments, or (iv) neither. Early results raised a question whether the trial should be continued. Streptokinase (alone or with aspirin) was associated with an excess of 10-day case fatality (odds ratio 2.7; 95% confidence interval 1.7-4.3; 2p < 0.00001). Of the four groups randomised, only patients allocated to streptokinase plus aspirin had a significantly higher risk of early death than those given neither streptokinase nor aspirin (odds ratio 3.5; 95% CI 1.9-6.5; 2p < 0.00001). Streptokinase (alone or with aspirin) and aspirin (alone or with streptokinase) reduced, albeit not significantly, the incidence of combined six-month case fatality and severe disability: odds ratio for streptokinase 0.9 (95% CI 0.7-1.3) and odds ratio for aspirin 0.9 (95% CI 0.6-1.3). The risk of early death with thrombolytic treatments should be weighed against the potential benefit of a marginal reduction of severe disability after the first six months.
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PMID:Randomised controlled trial of streptokinase, aspirin, and combination of both in treatment of acute ischaemic stroke. Multicentre Acute Stroke Trial--Italy (MAST-I) Group. 859 14

We evaluated intravenous streptokinase in the treatment of cerebral infarction. Following neurological assessment and cerebral computed tomography (CT), patients aged 40-80 years with symptoms of anterior circulation acute ischaemic stroke were given 1.5 M units streptokinase or saline placebo in a double-blind randomized study. Twenty patients (10 streptokinase, 10 placebo), 11 males, 9 females, aged 57-79 years, were treated out of 512 consecutive admissions to the acute stroke unit over a 2-year period. Initial CT was normal in 11 (6 placebo, 5 streptokinase) and showed early signs of cerebral infarction in nine (4 placebo, 5 streptokinase). Median times from symptom onset to treatment were 5.2 h (placebo) and 5.8 h (streptokinase). Streptokinase treatment was associated with symptomatic hypotension in one patient. Repeat CT at 72 h demonstrated intracerebral haematoma in two patients and haemorrhagic infarction in one patient in the streptokinase group; the two cases of haematoma formation were associated with neurological deterioration and death. One patient in the placebo group had evidence of haemorrhagic infarction at 72 h. There were three deaths in each treatment group, all within the first 14 days. Patients with acute stroke can be evaluated with CT and treated with streptokinase within 6 h, but the opportunity for treatment is currently limited to few patients. Streptokinase treatment is not without risk, but potential clinical benefit justifies ongoing multicentre randomized trials.
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PMID:A pilot study of streptokinase for acute cerebral infarction. 749 70

Streptokinase remains the most widely used agent worldwide, largely because it is the cheapest. Because of cost considerations when the incremental cost of the use of accelerated TPA exceeds $35,000 (US) per life year added, and because an iatrogenically induced stroke in a patient who is otherwise likely to have a good outcome is unacceptable, streptokinase may be used in patients with small to moderate-sized infarctions and those aged less than 60 years. Streptokinase is the agent of choice in patients who have an increased risk of stroke and may be used in patients presenting after 6 hours. Streptokinase also may have a role in patients with cardiogenic shock. Administration of accelerated TPA is the treatment of choice in patients at high risk such as those with large anterior infarctions, the elderly, and patients with bypass grafts, and it is an alternative to urokinase when streptokinase has been administered previously. The most important approach is to treat as many patients as early as possible with thrombolytic therapy regardless of which agent is used. Thrombolytic therapy still is widely underused. More lives will be saved, regardless of which thrombolytic drug is used, by encouraging patients to present early, improving on the "door-to-needle" time, and treating more patients with a therapy that can save thousands of lives worldwide.
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PMID:Selecting a thrombolytic agent. 758 72


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