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

Ischemic stroke is a major public health problem worldwide. The potential to cure stroke patients with intravenous thrombolytic therapy has evolved to the use of intra-arterial thrombolytic agents. Fewer than 200 patients have been enrolled in randomized trials of intra-arterial therapy. In this article the authors have reviewed the literature listed in MEDLINE and EMBase, and searched relevant articles to examine the role of fibrinolytic agents in acute interventional stroke therapy. Only English language articles reporting five or more patients were included. Outcomes were defined at 90 days. Good outcome was defined on the modified Rankin Scale. Symtpomatic hemorrhage was defined as hemorrhage in the setting of clinical deterioration in the first 24 to 48 h. The search identified 57 studies of which 44 reported usable data. Only three randomized trials were reported. Of a total of 1140 patients, most (73%) were treated open-label with urokinase (Abbokinase, Abbott Laboratories). The best outcomes were reported in case series and slightly worse outcomes were reported in clinical trials. Overall, it was not possible to distinguish whether one agent was superior to the others. There is a paucity of published evidence on intra-arterial therapy for acute ischemic stroke. Alteplase (Activase, Genentech Inc.) is currently the drug of choice simply because it is available and it is the current intravenous standard. Further trials and developments are anticipated.
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PMID:Intra-arterial thrombolysis in acute ischemic stroke: a review of pharmacologic approaches. 1515 76

(1) Alteplase is the first thrombolytic drug to be approved in France for the treatment of ischaemic stroke within three hours of symptom onset. (2) The clinical evaluation dossier contains nine placebo-controlled trials, of which six were relatively large. In the two NINDS trials (624 patients in total), treatment was started within the first three hours and it showed no survival benefit. Near-complete functional recovery was more frequent in the alteplase group than in the placebo group. In the two ECASS trials (620 and 800 patients) and the ATLANTIS trials (142 patients and 613 patients), treatment was started within the first six hours and it showed no significant benefit in terms of survival or functional recovery. (3) There are two meta-analyses of these trials. They confirm the lack of a survival benefit with alteplase. Using a combined endpoint, one meta-analysis showed that treating 1000 patients with alteplase prevented death or major disability (dependency) in 55 patients. The other meta-analysis underlined the importance of a short interval between the onset of symptoms and the beginning of treatment. (4) Intracranial haemorrhage is the most important adverse effect. One meta-analysis showed that alteplase caused 62 additional symptomatic intracranial haemorrhages (including 25 deaths) per 1000 treated patients. (5) Various retrospective subgroup analyses have tentatively identified subgroups of patients at a particularly high risk of adverse effects, but subgroup analyses provide only weak evidence. The patients most likely to benefit from alteplase, started within three hours of symptom onset, remain to be defined. (6) The current health infrastructure in France would allow only a small number of stroke patients to be treated with alteplase under the kind of conditions prevailing in clinical trials (imaging to confirm ischaemic stroke, and treatment very soon after the onset of symptoms). (7) In practice, there is a narrow margin between the wanted and unwanted effects of alteplase. This treatment should be used only by specialised teams and for strictly selected patients. Research must continue, particularly to identify those patients most likely to benefit from alteplase, and those most likely to be harmed in whom thrombolysis is contraindicated.
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PMID:Alteplase: new indication. Inadequately assessed in ischaemic stroke. 1553 35

Alteplase (rt-PA) is the first therapy successfully developed for acute stroke therapy. The success of rt-PA spurred development of new avenues for acute stroke management. For the last two decades, a great deal of attention has been paid to neuroprotective therapies. Initial preclinical studies demonstrated numerous drugs are effective for treating acute stroke in animal models; however, subsequent clinical trials have been frustrating, and none of the agents has proven effective. The various outcomes of preclinical and clinical trials have been the subject of much discussion. In this article, we review some key neuroprotective trials and the possible reasons for their failures. By identifying the discrepancies between preclinical studies and clinical trials, we may be able to set guidelines for future effective trials.
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PMID:Neuroprotection for ischemic stroke: two decades of success and failure. 1571 6

(1) In the acute phase of ischaemic stroke, antiplatelet or anticoagulant treatments reduce the risk of recurrence and pulmonary embolism, but carry a risk of haemorrhagic transformation. (2) Aspirin has been tested in several placebo-controlled trials and has a positive risk-benefit balance, preventing about 5 deaths per 1000 patients with ischaemic stroke. Aspirin must be given as soon as computed tomography has ruled out intracerebral haemorrhage, unless thrombolytic treatment is planned. (3) Heparin has as many potential benefits as risks: it tends to be beneficial at low doses but harmful at high doses. Low-dose heparin therapy appears to be justified, especially for patients with emboligenic heart disease, tight carotid stenosis, or at risk of pulmonary embolism. Higher-dose heparin is only warranted for the rare patient with a high thrombotic risk. (4) Some thrombolytic drugs can reduce the frequency and severity of complications, but their use carries a high immediate risk of aggravation or death by haemorrhagic transformation. Alteplase has a somewhat positive risk-benefit balance in certain highly specific situations: for example, in some patients with persistent ischaemic stroke who are treated within three hours of onset, and without signs of severe stroke or risk factors for bleeding (high blood pressure, aspirin use). (5) Clinical trials have shown that routine use of "neuroprotective" treatments (calcium channel blockers, haemodilution, parenteral magnesium, oxygen therapy) does not reduce the risk of death or disability. (6) Arterial hypertension frequently occurs in the immediate aftermath of stroke, and then generally subsides. Few clinical trials have evaluated the use of antihypertensive drugs in this setting and there is little evidence of benefit. One trial showed that a sudden drop in blood pressure led to neurological aggravation. Antihypertensive drugs should only be used in stroke patients with severe hypertension or cardiac complications. (7) Cerebral oedema is an important cause of death after stroke: treatments (especially mannitol, mechanical ventilation and neurosurgery) have been poorly evaluated. (8) Other treatments recommended only for patients with persistent complications include oxygen therapy, antibiotics, paracetamol, insulin, and anticonvulsants. (9) A controversial meta-analysis suggested that management by a specialised multidisciplinary team reduced the mid-term risk of death and disability in comparison with management in a non specialised unit.
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PMID:Ischaemic stroke: acute-phase drug therapy. Mostly aspirin and heparin. 1610 99

Alteplase, an intravenously administered form of recombinant tissue plasminogen activator (rt-PA), remains the only US FDA-approved thrombolytic treatment for acute ischemic stroke within 3 h of symptom onset. Patients treated with intravenous rt-PA are at least 30% more likely to have minimal or no disability at 3 months compared with placebo. Despite an increased risk of symptomatic intracranial hemorrhage, rt-PA does not increase mortality. The benefit achieved with rt-PA is cost effective and sustained 1 year after treatment. Despite its clear benefit, rt-PA remains underutilized. Although the future of acute ischemic stroke treatment will most likely involve a multi-faceted treatment approach, the primary objective remains to establish recanalization of the involved vessel. For patients with acute ischemic stroke within the first 3 h of symptom onset, rt-PA remains the first step in accomplishing this goal.
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PMID:Alteplase for acute ischemic stroke. 1671 92

Reteplase (Retavase) is a plasminogen activator, mimicking endogenous tissue plasminogen activator (t-PA), a serine protease, converting plasminogen to plasmin and thereby precipitating thrombolysis. It is a third-generation recombinant form of t-PA that operates in the presence of fibrin (i.e. it is fibrin specific). Reteplase can be administered as a bolus dose (nonweight-based) rather than an infusion, which promotes rapid and safe administration. The ease of administration of this reteplase dosage regimen (two 10U bolus doses, each over 2 minutes, 30 minutes apart) is conducive to prehospital initiation of thrombolytic treatment in patients with ST-segment elevation myocardial infarction (STEMI), which reduces the time to treatment, a critical factor in improving long-term survival. In large randomized clinical trials of patients with STEMI, reteplase was superior to alteplase for coronary artery patency (according to TIMI [thrombolysis in myocardial infarction] flow) at 60 and 90 minutes, but there was no significant difference between agents for mortality rate and incidence of intracranial bleeding. The 35-day mortality rates were equivalent for reteplase and streptokinase recipients; there was reduced incidence of some cardiac events with reteplase versus streptokinase, but a greater incidence of hemorrhagic stroke. Reteplase has also shown thrombolytic efficacy (in nonapproved indications) as a catheter-directed intra-arterial or intravenous infusion for peripheral vessel occlusions, as 5-minute bolus doses (in 1U increments) for acute ischemic stroke, as a low-dose solution for occluded catheters or grafts, and as an intravenous double bolus for massive pulmonary embolism. Across studies in these indications, the incidence of bleeding complications associated with reteplase treatment appeared to be similar to that associated with other thrombolytic agents. With its efficacy, and the ease of administration of the bolus doses potentially minimizing dosage errors when treatment is administered under time pressure, reteplase is a valuable option for pre- or in-hospital thrombolytic treatment in patients with STEMI, and is a useful thrombolytic for the treatment of the other thrombotic occlusive disorders described.
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PMID:Reteplase: a review of its use in the management of thrombotic occlusive disorders. 1691 28

Reteplase (Retavase) is a plasminogen activator, mimicking endogenous tissue plasminogen activator (t-PA), a serine protease, converting plasminogen to plasmin and thereby precipitating thrombolysis. It is a third-generation recombinant form of t-PA that operates in the presence of fibrin (i.e. it is fibrin specific). Reteplase can be administered as a bolus dose (nonweight-based), rather than an infusion, which promotes rapid and safe administration. The ease of administration of this reteplase dosage regimen (two 10U bolus doses, each over 2 minutes, 30 minutes apart) is conducive to prehospital initiation of thrombolytic treatment in patients with ST-segment elevation myocardial infarction (STEMI), which reduces the time to treatment, a critical factor in improving long-term survival. In large randomized clinical trials of patients with STEMI, reteplase was superior to alteplase for coronary artery patency (according to TIMI [thrombolysis in myocardial infarction] flow) at 60 and 90 minutes, but there was no significant difference between agents for mortality rate and incidence of intracranial bleeding. The 35-day mortality rates were equivalent for reteplase and streptokinase recipients; there was reduced incidence of some cardiac events with reteplase versus streptokinase, but a greater incidence of hemorrhagic stroke. Reteplase has also shown thrombolytic efficacy (in nonapproved indications) as a catheter-directed intra-arterial or intravenous infusion for peripheral vessel occlusions, as 5-minute bolus doses (in 1U increments) for acute ischemic stroke, as a low-dose solution for occluded catheters or grafts, and as an intravenous double bolus for massive pulmonary embolism. Across studies in these indications, the incidence of bleeding complications associated with reteplase treatment appeared to be similar to that associated with other fibrin-specific thrombolytic agents. With its efficacy, and the ease of administration of the bolus doses potentially minimizing dosage errors when treatment is administered under time pressure, reteplase is a valuable option for pre- or in-hospital thrombolytic treatment in patients with STEMI, and is a useful thrombolytic for the treatment of the other thrombotic occlusive disorders described.
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PMID:Spotlight on reteplase in thrombotic occlusive disorders. 1726 91

Favorable outcome by hyperacute rt-PA (recombinant tissue-type plasminogen activator) therapy was suggested firstly by randomized controlled trials (RCT) in Japan, and confirmed by the NINDS trial (1995) using alteplase within the initial 3 hours. A phase III clinical trial using open-labeled, single-dose alteplase was carried out in Japan (Japan Alteplase Clinical Trial, J-ACT). The study protocol was almost compatible to that of the NINDS study, except for several modifications including lower dose administration of alteplase (0.6 mg/kg) in the J-ACT than that in the NINDS study (0.9 mg/kg). The clinical backgrounds were almost similar, and frequencies of very favorable outcome at 3-months and symptomatic intracranial hemorrhage were comparable between the studies. The Japanese Government approved the use of intravenous alteplase therapy in October 11, 2005. The Japan Stroke Society published a guideline and gave more than 130 courses for appropriate alteplase therapy immediately after the approval. Clinical results of this therapy were excellent in the initial 21 cases of our hospital. New approaches will open the door to an exciting new era for stroke management. They include MR-based delayed thrombolysis up to 9 hours after stroke onset and ultrasound-enhanced systemic thrombolysis.
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PMID:[Thrombolytic therapy]. 1743 95

Thrombolytic therapy is the only approved therapy for acute ischemic stroke patients. As part of the European approval process, the Safe Implementation of Thrombolysis in Stroke - Monitoring Study (SITS-MOST) was demanded as a Phase IV study to evaluate the safety and efficacy of alteplase in a 3-h time-window. This article summarizes SITS-MOST and compares it with other Phase IV studies. Between 2002 and 2006, 6483 patients were included in 285 centers; median age was 68 years, median National Institutes of Health Stroke Scale (NIHSS) score was 12 and the median time-window was 140 min. The rate of symptomatic intracerebral hemorrhages, defined as parenchymal hemorrhage type 2 combined with a neurological deterioration of at least 4 points on NIHSS, was 1.7% within 24 h after treatment. Symptomatic hemorrhages as defined by the National Institute of Neurological and Communicative Disorders and Stroke criteria occurred in 7.3% of patients. The 3-month mortality was 11.3% and the rate of good clinical outcome (modified Rankin Score 0-2) was 55%. There were no major differences between experienced and inexperienced centers regarding safety or efficacy. The results of SITS-MOST are comparable with the results of the randomized placebo-controlled trials and other Phase IV studies such as standard treatment with Alteplase to Reverse Stroke and Canadian Alteplase for Stroke Effectiveness Study. They confirm that intravenous alteplase is safe and effective in routine clinical practice when used for acute stroke within 3 h of stroke onset, even in centers with little previous experience of thrombolytic therapy but only if the licensing approval criteria are strictly followed. These findings should encourage wider use of thrombolytic therapies for suitable stroke patients treated in stroke centers.
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PMID:Thrombolysis with alteplase for acute ischemic stroke: review of SITS-MOST and other Phase IV studies. 1761 Mar 85

We incorporated diffusion-weighted magnetic resonance imaging (MRI) (DWI) and perfusion-weighted MRI (PWI) to evaluate the efficacy of thrombolysis in experimental embolic stroke using a plasminogen activator, reteplase. Reteplase (rPA) is an unglycosylated plasminogen activator with enhanced fibrinolytic potency. Right internal carotid arteries of 34 rabbits were embolized using aged heterologous thrombi. Baseline DWI and PWI scans 0.5 hours after embolization confirmed successful embolization among 32. Intravenous treatment with rPA (n=11; 1 mg/kg bolus), recombinant tissue plasminogen activator (rt-PA) (n=11; 6 mg/kg bolus over 1 hour), or placebo (n=10) commenced 1 hour after stroke induction. MRIs were performed at 1.75, 3, and 5 hours after embolization. Six hours after embolization, brains were harvested and examined for hemorrhage. Posttreatment areas of diffusion abnormality and perfusion delay were graded using both a semiquantitative scale and percent areas expressed as a ratio of the baseline values. Improved perfusion was seen among the rt-PA, and rPA-treated groups compared with placebo, using a semiquantitative scale (P<.01 rt-PA v controls, P<.05, rPA v controls). DWI scans, however, were not improved with thrombolysis. Cerebral hemorrhage was not increased with thrombolytic treatment, although the incidence of wound site hemorrhage was higher with either rPA or rt-PA. One fatal systemic hemorrhage was observed in each of the thrombolytic-treated groups. Cerebral perfusion was equally improved with either rt-PA or rPA without causing excess cerebral hemorrhage. An advantage of rPA is single-bolus dosing rather than continuous infusion. Use of rPA for stroke treatment should be further explored.
J Stroke Cerebrovasc Dis
PMID:Thrombolysis with reteplase, an unglycosylated plasminogen activator variant, in experimental embolic stroke. 1789 78


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