UMLS:C0038454 - FACTA Search

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)

We studied the effect of argatroban, a new selective thrombin inhibitor, on the haemostatic system in seven patients with acute ischaemic stroke (the argatroban group). Argatroban was infused continuously at 2.5 mg/h for the first 48 h, and then 10 mg of argatroban was infused over 3 h twice a day on days 3-7. The placebo group consisted of six acute ischaemic stroke patients. As a combination therapy, intravenous administration of glycerol was also performed at the same time in five of the seven patients in the argatroban group and in four of the six patients in the placebo group. D-dimer levels were measured by a latex photometric immunoassay that allowed immediate quantitative assessment. The D-dimer levels of our 13 patients with acute ischaemic stroke were raised at the time of admission (day 1) and 69% of the values were above the 97th percentile ( > 500 ng/ml) in healthy subjects. D-dimer levels were significantly reduced in the argatroban group on days 2 and 7 after admission when compared with the placebo group (day 2: P = 0.032; day 7: P = 0.046). Thus, haemostatic activation occurred in acute ischaemic stroke was effectively blocked by argatroban.
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PMID:Thrombin inhibition in the acute phase of ischaemic stroke using argatroban. 858 8

Argatroban, a direct thrombin inhibitor, is used clinically because of its safe and effective antithrombotic action. This drug of low molecular weight shows reversible inhibition of thrombin irrespective of whether thrombin is fibrin-bound or soluble. Optimal anticoagulant effects can easily be attained by monitoring with the activated partial thromboplastin time or whole-blood activated clotting time when a therapeutic range of argatroban equivalent to that of heparin is used. The antithrombotic action is simply detected with a chromogenic substrate assay. The clinical use of the drug in Japan was approved for the treatment of chronic peripheral arterial obstructive disease and acute ischemic stroke. For coronary artery disease in patients with deficiency of antithrombin activities attributable to either antithrombin III or heparin cofactor II deficiency, argatroban is effective as an anticoagulant. Acute coronary occlusion during and after percutaneous transluminal coronary angioplasty can be treated by argatroban as an alternative to heparin. The presence of platelets activated by a trace amount of thrombin is evidenced by modified methods of platelet aggregometry in acute ischemic stroke. Therefore, argatroban can render the platelets insensitive against the platelet hyperaggregation enhanced by thrombin.
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PMID:Development of argatroban, a direct thrombin inhibitor, and its clinical application. 946 23

From injury through healing, thrombin has several important functions in blood clotting, subsequent clot lysis, and tissue repair. These include edema, inflammation, cell recruitment, cellular releases, transformations, mitogenesis, and angiogenesis. Thrombin also participates in disease states, such as venous thrombosis, coronary thrombosis, stroke, and pulmonary emboli, among others and is implicated in atherosclerosis, the growth and metastasis of certain cancers, Alzheimer's disease, and perhaps other conditions. Thrombin must be continually generated to sustain normal and pathogenic processes. This is because of a variety of consumptive mechanisms. Unlike other activated factors in thrombotic and fibrinolytic pathways, and because thrombin promotes its own generation (feedback and cellular activation), thrombin is a primary target for therapeutics. Besides recombinant hirudins, Argatroban (Novastan) and Bivalirudin (Hirulog) are promising thrombin-directed inhibitors for antithrombotic intervention.
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PMID:Thrombin and antithrombotics. 957 30

Argatroban, one of the arginine derivatives, has been reported to have a safe and potent antithrombin action. This compound is active in several animal models of thrombosis and also has been shown to improve general neurological symptomatology, general subjective symptomatology and general daily behavior in the patients with acute thrombosis. This was considered to reflect remarkable improvement of microcirculation. No published clinical data, however, exist on the effect of argatroban on cerebral blood flow (CBF) change during acute stroke. Three patients with acute cerebral infarction were subjected to this study. Intravenous argatroban injection (2.5 mg/hr) was continued in 48 hours. Regional CBF (rCBF) was measured before and after injection of argatroban using Xe-CT method. Argatroban increased CBF not only in the injured side hemisphere or penumbra, but also contralateral side of lesion in the patients with acute cerebral infarction.
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PMID:A specific thrombin inhibitor (argatroban) ameliorated cerebral blood flow in the patients with acute cerebral infarction. 1075 Mar 65

ARGAMI was designed to assess safety and efficacy of argatroban compared with heparin as adjunctive treatment to alteplase in the treatment of patients with acute myocardial infarction. ARGAMI consisted of an open-dose finding study (35 patients) followed by a placebo-controlled study with double dummy technique and 2:1 (argatroban:heparin) randomization. An argatroban dosage of 100 microg/kg bolus plus 3 microg/kg/min infusion for 72 hours was selected for the randomized study in which 82 patients were allocated to argatroban and 45 to heparin (5000 U intravenous bolus, 1000 U/h infusion). Patency of the infarct-related artery (Thrombolysis in Myocardial Infarction [TIMI] grade 2 or 3 flow) after 90 minutes was obtained in 62 patients (76%) allocated to argatroban versus 37 patients (82%) allocated to heparin (p=ns). Angiograms after 24 hours and 5 to 10 days showed low reocclusion rates in both groups. Bleeding complications were observed in 16 patients allocated to argatroban (19.5%) and in 9 patients allocated to heparin (20.0%). One patient allocated to heparin suffered from hemorrhage stroke. Argatroban, given as adjunctive treatment to alteplase, is tolerated well in patients with acute myocardial infarction. Safety and efficacy of the combination alteplase and argatroban (with this dose regimen) are similar to those of alteplase and heparin.
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PMID:Argatroban and alteplase in patients with acute myocardial infarction: the ARGAMI Study. 1112 43

The disturbance of microcirculation following cerebral ischemia leads to an enlargement of cerebral infarct volume. Endogenous thrombin may play a role in this disturbance of microcirculation following cerebral ischemia. Therefore, the inhibition of thrombin may improve neurodegeneration and the accumulation of cerebral edema following cerebral ischemia in gerbils. The effects of thrombin inhibitor (argatroban) on cerebral ischemia were investigated in comparison with thromboxane A2 synthase inhibitor (ozagrel) and cyclooxygenase inhibitor (aspirin) following bilateral common carotid artery occlusion and reperfusion (CCA:O/R) in male Mongolian gerbils. This study consisted of three experiments: (1) morbidity and survival ratio (n=40 for each), (2) histopathology (n=12 for each), and (3) mean arterial blood pressure, local cerebral blood flow (CBF), and cerebral specific gravity (n=8 for each). Argatroban treatment improved survival ratio and stroke index, and decreased ischemically injured cell numbers in cortex and hippocampus and cerebral edema in cortex compared with aspirin and saline, in concert with the fast recovery of local CBF without reactive hyperemia following bilateral CCA:O/R. Ozagrel treatment also improved those factors compared with saline, in concert with the fast recovery of local CBF with reactive hyperemia. Aspirin treatment improved survival ratio and stroke index, and decreased ischemically injured cell numbers in cortex. Thrombin inhibition with argatroban decreases neurodegeneration and cerebral edema following bilateral CCA:O/R in gerbils.
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PMID:Thrombin inhibition attenuates neurodegeneration and cerebral edema formation following transient forebrain ischemia. 1138 20

Argatroban, a direct thrombin inhibitor derived from arginine, is an effective anticoagulant indicated for prophylaxis or treatment of thrombosis in patients with heparin-induced thrombocytopenia (HIT). Argatroban has been used as an alternative anticoagulant in patients with HIT in various clinical conditions including interventional cardiovascular procedures that require anticoagulation. Satisfactory clinical outcomes with acceptable complications have been reported in these patients. Whether argatroban offers additional clinical advantage over conventional heparin therapy in patients without HIT remains unclear. Argatroban has been evaluated as an alternative anticoagulant to replace heparin in various clinical studies, especially in patients with coronary artery disease or cerebral vascular disease. To date, it remains unclear if argatroban is more effective than heparin, although the agent seems to cause less bleeding complications. This article reviews the pharmacology of argatroban and its clinical application beyond the management of HIT, with particular emphasis on interventional cardiology procedure, acute myocardial infarction, unstable angina pectoris, cerebral thrombosis or ischemic stroke, peripheral obstructive arterial disease, and extracorporeal circulation.
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PMID:Argatroban: a direct thrombin inhibitor for heparin-induced thrombocytopenia and other clinical applications. 1197 90

The developments and trends of hemostatic and antithrombotic drugs in Japan were investigated chronologically for the last 50 years after the 2nd World War. 1. Hemostatic drugs are classified into three groups ; capillary stabilizers, blood coagulants and antifibrinolytics. l) As to capillary stabilizers, flavonoid (rutin, 1949), adrenochrome derivative (carbazochrome, 1954) and conjugated estrogen (Premarin, 1964) were introduced therapeutically. Especially, the soluble types of adrenochrome compounds (Adona 1956, S-Adchnon, 1962) were devised and used widely in Japan. 2) Drugs concerning blood coagulation, thrombin, introduced in 1953, and hemocoagulase, a snake venom introduced in 1966, were used clinically. V.K. groups producing various coagulation factors were introduced as V.K1 (Phytonadione, 1962) and V.K2 (rnenatetrenone,1972), and they were admitted in "The Japanese Pharmacopoeia"editions 8 and 14, respectively). 3) Regarding antifibrinolytic drugs, Japanese researchers have made remarkable contributions. e-Aminocapronic acid (Ipsilon, 1962) and tranexamic acid (Transamin, 1965) were developed and used for various abnormal bleedings or hemorrhage associated with plasmin over-activation. tranexamic acid also proved to suppress inflammations of the throat such as tonsillitis, pharyngitis or laryngitis. 2. Antithrombotic drugs are also divided into three groups; anticoagulants, antiplatelet drugs and fibrinolytics.1) The anticoagulants used therapeutically by injection are heparins (Na-salt, 1951; Ca-salt, 1962) and low-molecular-weight heparins such as dalteparin (1992), parnaparin (1994) and reviparin (1999). The low molecule compounds are superior to the original heparins in reducing the risk of bleeding. As oral anticoagulants, coumarin derivatives, dicumarol (1950), ethylbiscoumacetate (1954), phenylindandione (1956) and warfarin (1962) are known. Warfarin potassium is the main drug for oral therapy of thromboembolism lately. Gabexate mesilate (1989) and nafamostat mesilate (1989) were developed in Japan and used for DIC and acute pancreatitis to inhibit protease enzymes. Argatroban is a unique antithrombin product developed by Japanese researchers in 1990, and is used for vascular or cerebral thrombosis. After noticing in 1968 that aspirin inhibits platelet aggregation and prevents myocardial infraction, projects for developing antiplatelet drugs were initiated worldwide. Ticlopidine, originally developed in France, was introduced in 1981 and prevailed widely in Japan for reducing the risk of thrombotic stroke. Aspirin itself was recognized by the FDA (USA) as an antithrombotic drug in 1988, and was also approved by Japanese authorities in 2000. PGE1 clathrate compounds have also been developed as antiplatelet drugs; alprostadil alfadex for injection (1979), and limaprost alfadex for oral use (1988). The PGI2 product, beraprost sodium, for oral use followed them in 1992. Other antiplatelet drugs with unique mechanisms explored in Japan: Ozagrel (1988), which inhibits TXA2 synthetase, cilostazol (1988), which inhibits cAMP phosphodiesterase, and sarpogrelate (1993), which blocks 5HT in platelets, are the notable drugs in this field. Ethyl icosapentate, from fish oil, is available for antiplatelet therapy. Concerning the fibrinolytic system, plasminogen activators are useful for thromboembolism. The streptokinase from bacterial origin developed in the USA and Europe was not introduced, and urokinase (1965) was the first plasminogen activator developed in Japan. Then tissue plasminogen activators (t-PA) tisokinase (cell culture, 1991), alteplase (genetical recombination, 1991), nateplase (genetical recombination, 1996), monteplase (1998) and pamiteplase (1998) were developed and approved for acute myocardial infarction. Nasaruplase (prourokinase, cell culture,1991) was also approved for the same indication. While the development of the hemostatic drugs ceased in the 1960s, avid project studies for antithrombotic drugs including fibrinolytics began in the 1980s and are progressing now towards new molecular targets. This may be due to the increasing tendency of cardiovascular thromboembolic diathesis in Japan. (The figures in parentheses are the years approved by the Japanese Ministry of Health, Labor and Welfare.)
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PMID:[A 50-year history of new drugs in Japan-the development and trends of hemostatics and antithrombotic drugs]. 1457 69

The only drug approved by the US FDA for use in patients with acute ischemic stroke is the thrombolytic, alteplase. Whereas alteplase rapidly restores blood flow, the drug has to be administered within 6 hours after symptom onset and is associated with an increased incidence of intracerebral hemorrhage (ICH). Moreover, transient and permanent re-occlusions associated with increased mortality continue to occur after thrombolysis with alteplase. Platelets are believed to play a pivotal role in the pathogenesis of atherothrombosis and the binding of the platelet glycoprotein (GP) IIb/IIIa receptor to fibrinogen is the final common pathway leading to platelet aggregation and thrombus formation. Antiplatelet agents such as platelet GP IIb/IIIa receptor antagonists have been studied in numerous multicenter, randomized clinical trials in patients with acute coronary symptoms (ACS). The intravenous GP IIb/IIIa receptor antagonists abciximab, eptifibatide and tirofiban are approved by the FDA for use in patients with ACS, and intravenous tirofiban is also approved for use during coronary intervention. Oral GP IIb/IIIa receptor antagonists such as lotrafiban, xemilofiban, sibrafiban and orbofiban have failed to provide myocardial protection in patients with ACS. Compared with ACS, few trials have evaluated the efficacy and tolerability of platelet GP IIb/IIIa receptor antagonists in patients with cerebrovascular syndromes. Agents such as SM-20302, TP201, ME3277, murine 7E3 F(ab')(2 )and SDZ-GPI 562 have been reported to preserve microvascular patency in different animal models of acute ischemic stroke and they may have neuroprotective properties. Platelet GP IIb/IIIa receptor antagonists may be suitable as a single therapeutic or as an adjunct therapeutic to thrombolysis with alteplase for the treatment of stroke. Platelet GP IIb/IIIa receptor antagonists may enhance the efficacy of thrombolytics and reduce potentially fatal adverse effects such as ICH. Preliminary results from the Abciximab in Emergent Stroke Treatment Trial (AbESTT) indicate that abciximab, administered as a bolus dose 0.25 mg/kg followed by 12-hour infusion, was associated with significant improvement in clinical rating scores and no significant increase in bleeding episodes in patients with acute stroke. The tolerability of argatroban in patients with acute stroke is currently being assessed in the multicenter Argatroban in Ischemic Stroke (ARGIS-1) trial.
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PMID:Therapeutic potential of platelet glycoprotein IIb/IIIa receptor antagonists in the management of ischemic stroke. 1472 35

The aim of this study is to determine whether a selective thrombin inhibitor, Argatroban, would prevent neuronal cell death and whether extra-mild hypothermia (35 degrees C) would enhance the neuroprotective effect of a selective thrombin inhibitor following transient focal ischemia in rats. Sprague-Dawley rats were subjected to MCAo using an intraluminal suture technique for 2 hrs. The rats were reperfused for 24 h and decapitated for infarct and edema analysis. Argatroban-treated animals received a continuous injection of argatroban (3.0 mg/kg) for 24 hrs after onset of ischemia, while vehicle-treated groups received same dose of vehicle. During ischemia, temporal muscle and rectal temperatures were monitored and maintained at 37 degrees C in the normothermic animals and at 35 degrees C in the hypothermic animals. Argatroban ameliorated the cortical ischemic damage significantly (p < 0.05). Moreover, argatroban with mild hypothermia decreased the cortical infarct or edema volume significantly compared with those of groups I and III (p < 0.05). Argatroban improved neurological symptoms significantly and also improved survival rate. These results demonstrate that extra-mild hypothermia (35 degrees C) enhances neuroprotective effects of a selective thrombin inhibitor, argatroban, suggesting that this combined therapy may be a new therapeutic strategy for the treatment of acute stroke.
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PMID:Mild hypothermia enhances the neuroprotective effects of a selective thrombin inhibitor following transient focal ischemia in rats. 1475 34

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