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)

The use of first generation plasminogen activators, urokinase, streptokinase and tissue plasminogen activator has revolutionized thrombolytic therapy for myocardial infarction and ischaemia, and potentially stroke. However, thrombolytic therapy employing these activators is limited by reocclusion of the very arteries being opened, which follows in a small but significant number of patients. The development of second generation plasminogen activators, e.g. staphylokinase and anisoylated plasminogen streptokinase activator complex, has not alleviated the problems encountered with classical plasminogen activators. It is now widely recognized that aberrant platelet aggregation induced primarily by thrombin, rather than plasmin, is one of the major causes of recurrent thrombosis following pharmacologic thrombolysis. Agents that (a) inhibit enzymatic and/or coagulant activity of thrombin, (b) block binding of thrombin to its receptor, and (c) interfere with the generation of thrombin by the prothrombinase complex may compromise haemostasis resulting in haemorrhage. We recently demonstrated that thrombin-induced platelet aggregation is accompanied by cleavage of aggregin, a putative ADP-receptor on the platelet surface, and that these events are indirectly mediated by intracellularly activated calpain expressed on the surface. In this review, we discuss the known mechanisms of thrombin-induced platelet aggregation and suggest relative advantages of potential pharmacological agents, being developed in our laboratory, over those that have been previously developed and tested. These inhibitors selectively prevent aggregation of platelets induced by thrombin by inhibiting calpain expressed on the surface. Moreover, one of these inhibitors which blocks thrombin-induced platelet aggregation does not interfere with other platelet responses mediated by thrombin or platelet aggregation induced by other agonists, such as, ADP, collagen, phorbol myristate acetate and thromboxane A2 mimetics. This selectivity could reduce the chances of perturbing the formation of a haemostatic plug.
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PMID:Reocclusion after thrombolytic therapy: strategies for inhibiting thrombin-induced platelet aggregation. 832 74

A group of 59 patients with stroke due to acute vertebrobasilar or carotid territory occlusion have been treated by local intra-arterial fibrinolysis (LIF). A high recanalisation rate was accomplished with either urokinase or recombinant tissue plasminogen activator (r-TPA). However, with either substance, even if a high dose was used, recanalisation was a time-consuming process which usually took 120 min. A reasonable explanation for the lack of effectiveness of these plasminogen-activating substances might be a deficit of substrate, e.g. plasminogen, in aged thrombus. LIF was capable of improving clinical outcome in acute vertebrobasilar artery occlusion, reducing mortality to 50% in patients fulfilling inclusion criteria. In the carotid territory multiple occlusions had a poor prognosis while good clinical results could be achieved in occlusions of the proximal middle cerebral artery or single branches.
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PMID:Local intra-arterial fibrinolytic therapy in patients with stroke: urokinase versus recombinant tissue plasminogen activator (r-TPA). 843 96

The 4 widely available thrombolytic agents, alteplase (recombinant tissue plasminogen activator, rt-PA), anisoylated plasminogen streptokinase activator complex (APSAC; anistreplase), streptokinase and urokinase have revolutionised the treatment of acute myocardial infarction and are also effective in treating pulmonary embolism and peripheral arterial thrombosis. Therapeutic efficacy of the agents appears to be similar. Choice of a thrombolytic agent depends more on patient characteristics, availability and familiarity with the drug, cost and differences in tolerability. While overall thrombolytic therapy is relatively safe, these 4 agents differ in their tolerability profiles. Streptokinase has the lowest cerebral haemorrhage rate, anistreplase an intermediate and alteplase the highest rate. The incidence of total stroke is also higher with alteplase and anistreplase than with streptokinase, translating to an actual difference in patient risk of 4 extra strokes per 1000 patients treated. Risk of major bleeding is dependent on predisposing factors and seems to be similar with each agent. The incidence of hypotension with alteplase (4.3% in ISIS-3) is less than with streptokinase or anistreplase (6.8 and 7.2%, respectively in ISIS-3). The incidence of major anaphylactic reactions with streptokinase and anistreplase is low (< 1%). Urokinase and alteplase may be preferred for readministration of thrombolytic therapy and anistreplase is the agent of choice where rapid completion of therapy is desirable. The various agents may have different tolerability profiles with different adjunctive therapies and further data are therefore required.
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PMID:Comparative tolerability profiles of thrombolytic agents. A review. 847 Nov 85

Alteplase is the product of recombinant DNA technology and is chemically identical to endogenous tissue-type plasminogen activator: Plasminogen is converted to plasmin by alteplase, and fibrinolysis of blood thrombi is subsequently stimulated. Alteplase is now firmly established as a treatment of choice in the management of acute myocardial infarction. The efficacy of intravenous alteplase in the treatment of pulmonary thromboembolism has also been established and appears to be similar to that of streptokinase and urokinase in this indication and in arterial thrombotic occlusion. However, its use in this latter indication and in other vascular disorders has not been as extensively documented. Although trials demonstrating the efficacy of intravenous alteplase in patients with deep vein thrombosis and intra-arterial alteplase in patients with arterial thrombotic occlusion exist, reliable data on the efficacy of the fibrinolytic in ischaemic stroke and intracranial haemorrhage are scarce. Little clinical benefit is apparent in patients with unstable angina, although careful use may be warranted in those with definite pretreatment coronary thrombi. Of concern, there is a suggestion that general use of alteplase in patients with unstable angina may be associated with increased incidence of myocardial infarction. The incidence of major haemorrhage associated with alteplase therapy increases with increasing dose and appears to be similar to that seen with other fibrinolytic agents. Thus, further well-designed studies of the use of alteplase in ischaemic stroke and cerebral haemorrhage are required. However, a small subset of patients with unstable angina and definite pretreatment coronary thrombi may benefit from alteplase therapy. Further, preliminary data suggest efficacy in the therapy of deep vein thrombosis and arterial thrombotic occlusion, and alteplase has a proven place in the fibrinolytic treatment of pulmonary thromboembolism.
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PMID:Alteplase. A reappraisal of its pharmacology and therapeutic use in vascular disorders other than acute myocardial infarction. 852 60

Thrombolytic therapy provides clinical benefit in patients with vascular occlusions, depending upon the organ or limb that is threatened. The impact of therapeutic intervention varies from the quiet alteration of the course of deep vein thrombosis, for which non-life threatening post-phlebitic syndrome can be largely avoided, to the sometimes striking reversal of pulmonary hypertension and possible life-saving benefit in massive pulmonary embolism, the immediate alteration of clinical course in acute peripheral arterial occlusion by reducing the need for surgical intervention, cardiopulmonary complication and one year mortality, and finally to the dramatic and life-saving potential when applied in patients with acute myocardial infarction. Since the risk of serious hemorrhage, especially intracranial hemorrhage, is a constant, regardless of the underlying thrombotic problem, thrombolytic therapy will necessarily be applied variably according to the different potential therapeutic benefits. The balance of potential benefit versus the risk of intracranial hemorrhage in the situation of cerebrovascular thrombosis and stroke remains to be clarified by ongoing studies. As to the evidence for superiority of any single thrombolytic agent or regimen, direct comparative studies are still needed for patients with venous thrombosis and arterial occlusion. Available direct comparisons of two or three agents (streptokinase, urokinase, alteplase and anistreplase) in studies of pulmonary embolism and myocardial infarction show a consistent pattern that documents positive clinical benefit for all of the agents, with striking similarity in quantitative aspects despite marked differences in biochemical properties of the agents.
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PMID:Thrombolytic therapy: overview of results in major vascular occlusions. 857 40

This report covers a series of four patients with acute cervical carotid occlusion and profound neurological deficits who were treated with intracranial intraarterial thrombolysis. All of the patients presented with arm plegia with variable leg involvement and two of them had global aphasia. Angiography identified occlusion of the proximal internal carotid artery (ICA) in each case and intracranial thromboembolus of the supraclinoid ICA and/or its branches. Catheter navigation through the occluded ICA segment was straightforward in three patients and somewhat difficult in one patient with an 80% ICA stenosis. Intraarterial urokinase infusion along with mechanical clot disruption was performed at the clot site in the middle cerebral artery, supraclinoid ICA, and/or anterior cerebral artery. All patients had recanalization of the treated artery after urokinase infusion. Antegrade flow through the ICA was reestablished in two patients, and good collateral filling across the anterior communicating artery was established in the other two. All patients had major pretreatment deficits (mean National Institutes of Health (NIH) Stroke Score 24 +/-4) with significant improvement noted at 3 months posttreatment (NIH Stroke Score 7 +/-6;p=0.03). Two patients made a dramatic early recovery. Postprocedure computerized tomography revealed no abnormality in one and asymptomatic basal ganglia high density from repeated local contrast injections in two patients. On the basis of their findings in this small study group the authors suggest that catheter navigation through a presumably occluded carotid artery is feasible and possibly effective in thrombolytic therapy of intracranial thrombolysis. Further study with clinical trials is necessary to determine the safety and efficacy of this technique.
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PMID:Intracranial intraarterial thrombolysis facilitated by microcatheter navigation through an occluded cervical internal carotid artery. 860 48

Cerebral infarction initiates a cascade of molecular events, leading to proteolytic cell death. Matrix-degrading metalloproteinases (MMPs) are neutral proteases involved in extracellular matrix damage. Type IV collagenase is an MMP that increases cerebral capillary permeability after intracerebral injection and may be important along with plasminogen activators (PA) in secondary brain edema in stroke. Therefore, we measured MMPs and PAs in spontaneously hypertensive (SHR) or Wistar-Kyoto (WKY) rats with permanent middle cerebral artery occlusion (MCAO). Brain tissue was assayed for MMPs and PAs at 1, 3, 12, and 24 h and 5 days after occlusion, using substrate gel polyacrylamide electrophoresis (zymography). SHR showed an increase in 92-kDa type IV collagenase (gelatinase B) in the infarcted hemisphere compared with the opposite side at 12 and 24 h (p < 0.05). Gelatinase A remained the same in both infarcted and normal tissue until 5 days after injury, when it increased significantly (p < 0.05). Urokinase-type PA was increased significantly at 12 and 24 h and 5 days, while tissue-type PA was decreased significantly at 1, 12, and 24 h in the ischemic compared with the nonischemic hemisphere. Gelatinase B was markedly increased in SHR at 12 and 24 h compared with WKY (p < 0.05). Secondary vasogenic edema is maximal 1-2 days after a stroke, which is the time that gelatinase B was elevated. The time of appearance of gelatinase B suggests a role in secondary tissue damage and vasogenic edema, while gelatinase A may be involved in tissue repair.
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PMID:Proteolytic cascade enzymes increase in focal cerebral ischemia in rat. 862 40

To improve the efficacy of local intraarterial fibrinolysis (LIF), we compared different fibrinolytic drugs in a cerebral circulation model in the laboratory. The technical efficacy of fibrinolysis, defined as the clot volume lysed per unit time, was found to be optimal with r-tissue plasminogen activator (TPA) activated lys-plasminogen (= plasmin). Subsequently, 20 patients with stroke due to carotid artery territory occlusion were treated by local intraarterial fibrinolysis using the plasmin regimen. The angiographic data and clinical outcome of these patients were compared with those of 40 patients who received plasminogen activators (urokinase or r-TPA) only. Laboratory and clinical data confirmed that plasmin lysis is superior to treatment using only plasminogen activators.
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PMID:Lys-plasminogen as an adjunct to local intra-arterial fibrinolysis for carotid territory stroke: laboratory and clinical findings. 869 37

Fifteen children treated with fibrinolytic agents are presented. The most frequent indication was thromboembolic disease (TED). Eleven patients received streptokinase, 5-urokinase and 3-tissue plasminogen activator. Concomitant heparin was administered to 9 patients with TED. Total resolution was achieved in 9 children, partial improvement in 5; 1 child died during treatment without any improvement. Bleeding complications were observed in 6 patients, 1 of them died due to haemorrhagic stroke. According to the literature and our own experience, we recommend fibrinolytic agents as the treatment of choice for severe TED also in children.
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PMID:[One center's experience with fibrinolytic treatment in children]. 871 Apr 28

Therapy for stroke is undergoing major changes. Many of the changes parallel the advances made in the therapy for myocardial infarction. Acute intervention with cytoprotective and thrombolytic agents is undergoing active investigation. Cytoprotective therapy includes drugs that act to prevent cell death during ischemia and reperfusion. These agents include calpain inhibitors, voltage-sensitive calcium- and sodium-channel antagonists, receptor-mediated calcium-channel antagonists [including N-methyl-D-aspartate (NMDA) and alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid (AMPA) antagonists], glutamate-synthesis inhibitors, glutamate-release antagonists, gamma-aminobenzoic acid (GABA) antagonists, 5-HT (serotonin) receptor agonists, gangliosides, antioxidants, growth factors, antiapoptotic agents, and antiadhesion molecules. Thrombolysis is effective in myocardial infarction. Thrombolysis is undergoing evaluation in stroke with streptokinase, anisoylated plasminogen streptokinase activator complex (APSAC), tissue plasminogen activator (t-PA; including recombinant t-PA), urokinase, and single-chain urokinase (scu-PA). Both systemic and selective administration are being evaluated. Preventive therapy with both antiplatelet and anticoagulant drugs sheds new light on how best to stratify patients in terms of a risk-benefit ratio. Continuing public education will be essential as stroke therapy advances.
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PMID:Medical therapy for ischemic stroke. 877 66


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