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Query: UMLS:C0917798 (cerebral ischemia)
 17,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Coronary thrombolysis with streptokinase or tissue plasminogen activator is useful for the treatment of acute myocardial infarction in selected patients. This treatment is associated with local hemorrhagic complications and age-related cerebral hemorrhage. Coronary thrombolysis is contraindicated in patients with transient cerebral ischemia and stroke, arterial hypertension, cerebral trauma, cerebral aneurysms, and arteriovenous malformations, because of the risk of cerebral hemorrhage. We report the occurrence of a cerebral hemorrhage related to cerebral amyloid angiopathy in a patient who underwent thrombolysis and treatment with heparin for acute myocardial infarction. Despite normal coagulation parameters, the cerebral hematoma enlarged over 36 hours, as documented by sequential computed tomographic scans, to produce significant mass effect, which prompted surgical evacuation. Histological examination of the resected specimen demonstrated the strong affinity for Congo red and yellow-green birefringence that are characteristic of cerebral amyloid angiopathy. Hemostasis was difficult to achieve, as the divided or disrupted amyloid-laden cortical vessels failed to vasoconstrict, their contractile elements replaced by amyloid beta protein. The patient died of recurrent myocardial ischemia 3 days postoperatively. The incidence of cerebral amyloid angiopathy increases with advancing age. It must be considered as a potential source of cerebral hemorrhage in elderly patients undergoing thrombolysis for cardiac ischemia. Such an occurrence presents a difficult challenge because cardiac function is compromised, the coagulation profile may be altered, the cerebral hematoma is life threatening, and intracranial hemostasis is difficult to achieve.
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PMID:Cerebral hemorrhage from amyloid angiopathy and coronary thrombolysis. 140 40

An open angiography-based, dose rate escalation study on the effect of intravenous infusion of recombinant tissue plasminogen activator (rt-PA) on cerebral arterial recanalization in patients with acute focal cerebral ischemia was performed at 16 centers. Arterial occlusions consistent with acute ischemia in the carotid or vertebrobasilar territory in the absence of detectable intracerebral hemorrhage were prerequisites for treatment. After the 60-minute rt-PA infusion, arterial perfusion was assessed by repeat angiography and computed tomography scans were performed at 24 hours to assess hemorrhagic transformation. Of 139 patients with symptoms of focal ischemia, 80.6% (112) had complete occlusion of the primary vessel at a mean of 5.4 +/- 1.7 hours after symptom onset. No dose rate response of cerebral arterial recanalization was observed in 93 patients who completed the rt-PA infusion. Middle cerebral artery division (M2) and branch (M3) occlusions were more likely to undergo recanalization by 60 minutes than were internal carotid artery occlusions. Hemorrhagic infarction occurred in 20.2% and parenchymatous hematoma in 10.6% of patients over all dose rates, while neurological worsening accompanied hemorrhagic transformation (hemorrhagic infarction and parenchymatous hematoma) in 9.6% of patients. All findings were within prospective safety guidelines. No dose rate correlation with hemorrhagic infarction, parenchymatous hematoma, or both was seen. Hemorrhagic transformation occurred significantly more frequently in patients receiving treatment at least 6 hours after symptom onset. No relationship between hemorrhagic transformation and recanalization was observed. This study indicates that site of occlusion, time to recanalization, and time to treatment are important variables in acute stroke intervention with this agent.
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PMID:Recombinant tissue plasminogen activator in acute thrombotic and embolic stroke. 164 75

Approximately 10 in 100,000 persons suffer rupture of a saccular intracranial aneurysm annually, and roughly 60% of these will survive the initial catastrophe in reasonable neurological condition. Of the many ensuing complications of aneurysmal subarachnoid hemorrhage, the most frustrating continues to be a form of delayed-onset cerebral arterial narrowing known as vasospasm. Because it is caused by thick subarachnoid blood clots coating the adventitial surface of cerebral arteries, the distribution and severity of vasospasm correlates closely with location and volume of subarachnoid hematoma as visualized on computed tomography (CT). Critical vasospasm causes cerebral ischemia and infarction: the "second stroke." It is now know that vasospasm represents sustained arterial contraction rather than structural thickening of the vessel wall with lumen encroachment. A large body of evidence points to oxyhemoglobin, released from lysing erythrocytes, as the principal component of blood clot responsible for this contraction. The precise mechanism by which oxyhemoglobin causes prolonged vascular smooth muscle cell constriction has not yet been established, but possibilities include secondary generation of vasoactive free radicals, lipid peroxides, eicosanoids, bilirubin, and endothelin. Vasospasm treatments are directed at preventing or reversing arterial narrowing, or at preventing or reversing cerebral ischemia. Several treatments from the latter category, namely, hypertensive, hypervolemic hemodilutional therapy and the calcium channel blocker nimodipine, have proven moderately effective and are in widespread clinical use. It has also been possible to mechanically dilate vasospastic vessels with transluminal angioplasty improving cerebral blood flow to ischemic brain. However we are still in need of an effective agent to prevent arterial narrowing, and several hopeful candidates in this category of treatment are clot lytic agent tissue plasminogen activator (rt-PA) and an inhibitor of iron-dependent peroxidation, 21-aminosteroid U74006F (tirilazad mesylate).
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PMID:Current concepts of pathophysiology and management of cerebral vasospasm following aneurysmal subarachnoid hemorrhage. 177 40

The effect of an intravenous infusion of recombinant tissue plasminogen activator on hemorrhagic transformation early after middle cerebral artery territory ischemia was studied in an established awake nonhuman primate (baboon) model. Following 3 hours' occlusion of the middle cerebral artery and 30 minutes' reperfusion in each of 30 baboons, a 60-minute infusion of recombinant tissue plasminogen activator (at three doses: Group A, 0.3 mg/kg, n = 6; Group B, 1.5 mg/kg, n = 6; Group C, 10 mg/kg, n = 6) or normal saline (n = 12) was undertaken. The frequency and volume of intracerebral hemorrhage, the volume of infarction, and clinical alterations were determined by computed tomography at 24 hours and 10 days, neuropathology at 14 days, and serial daily neurologic evaluations, respectively. Peripheral (nonintracranial) hemorrhage (Group A, p = 0.46; Group B, p = 0.015; Group C, p = 0.002) and peak plasma tissue plasminogen activator levels varied directly with the dose of recombinant tissue plasminogen activator. Petechial hemorrhagic infarction was a common finding among the 30 baboons. No significant differences in the incidences or volumes of infarction-related hemorrhage were apparent in any group compared with the respective saline-treated baboons. In pooled data, no significant relation between the volume of hemorrhage and the volume of infarction could be established. We conclude that the incidence and severity of hemorrhagic transformation are not related to infarction size and that recombinant tissue plasminogen activator does not increase the incidence or severity (volume) of hemorrhage when given early (less than or equal to 3.5 hours) after the onset of focal cerebral ischemia in this model.
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PMID:Hemorrhagic transformation following tissue plasminogen activator in experimental cerebral infarction. 210 75

Significant current interest has focused on the possible value of fibrin-selective thrombolytic agents in acute stroke. Acute thrombosis contributes to carotid and vertebrobasilar arterial occlusions in the majority of acute stroke patients. Hence, fibrin(ogen)olytic agents may produce arterial recanalization and clinical benefit in thrombotic stroke. There are, however, unique features of cerebral tissue that suggest caution with the use of fibrin-selective agents in cerebral ischemia. The specific vascular anatomy and collateral flow suggest that salvage of the "ischemic penumbra" following vascular recanalization in focal ischemia is more likely to be successful than attempts in global ischemia. Recanalization may be associated with reperfusion injury and, more importantly, the risk of hemorrhagic transformation. There is little concrete information regarding the relative contribution of either event to post-thrombolysis cerebral injury. Early studies with exogenous fibrinolytic agents (urokinase, streptokinase) in completed stroke were regarded as inconclusive, demonstrating only an increased risk of intracerebral hemorrhage. Subsequent pilot studies in carotid and in vertebrobasilar territory thrombotic stroke have demonstrated that recanalization can result when exogenous agents are infused just proximal to the cerebral artery occlusion by interventional neuroradiological techniques. This experience and the advent of fibrin-selective agents (tissue plasminogen activator [tPA] and single-chain urokinase plasminogen activator) have led to the development of a multicenter prospective safety/dose-ranging study of tPA in acute (less than eight hours from symptom onset) thrombotic stroke. Following initial clinical assessment, computed tomography scan, and angiography, each patient with a documented cerebral artery occlusion appropriate to the clinical syndrome receives a preassigned intravenous dose of tPA over 60 minutes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Investigational use of tPA in acute stroke. 314 17

Six aneurysms in five patients with acute aneurysmal subarachnoid hemorrhages were treated with direct thrombosis using cellulose acetate polymer within 4 hours of rupture. The aneurysms involved the internal carotid and posterior communicating arteries (two patients), the anterior choroidal artery (one patient), the bifurcation of the basilar artery (one patient), and the middle cerebral artery (two patients). Four patients underwent aggressive volume expansion after direct thrombosis with cellulose acetate polymer. The aneurysms remained thrombosed until operations on the necks were performed 2 to 7 weeks after the subarachnoid hemorrhages. Three patients were given intrathecal tissue plasminogen activator. One patient, who remained at neurological Grade V, was not treated surgically and died from cardiac failure. Five aneurysms in the remaining four patients were successfully clipped. These preliminary data suggest that immediate aneurysmal thrombosis, then aggressive preoperative prophylactic volume expansion and/or administration of intrathecal tissue plasminogen activator, can help prevent new bleeding and reduce delayed cerebral ischemia in patients after aneurysmal subarachnoid hemorrhages.
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PMID:Prophylactic thrombosis to prevent new bleeding and to delay aneurysm surgery. 759 94

Thrombolytic therapy has been proposed in the treatment of cerebrovascular occlusive disease. Early clinical experiences with Urokinase and Streptokinase raised concern about the risk of hemorrhagic complications. More recently, tissue plasminogen activator (tPA) has been evaluated experimentally with promising results. Its clinical utilization has been recently initiated. A review of experimental and clinical data on thrombolysis in cerebral ischemia is presented. TPA treatment produced recanalization and clinical improvement in several patients. The rate of intracranial hemorrhagic complications is similar to the incidence of spontaneous hemorrhagic conversion of ischemic infarction. Nevertheless, large placebo-controlled clinical trials are necessary to further define the efficacy and the optimal modality of administration of tPA in thromboembolic stroke.
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PMID:Thrombolysis in cerebral ischemia. A review of clinical and experimental data. 830 72

In this study a new model of cerebral ischemia, based on a middle cerebral artery (MCA) thrombosis in rats is described. Furthermore, the effect of the novel plasminogen activator (SUN9216), a plasminogen-plasminogen activator chimera, comprising the fibrin kringle 1 domain of a plasminogen, and the two kringles, and the serine protease domains of wild-type tissue plasminogen activator (t-PA), including a modification of the mannose glycosylation site on the kringle 1 of t-PA (PK1de1FE1X), was studied in this model. In the newly described model of thrombotic cerebral ischemia, an occlusive thrombus occurred usually within 8 min in the MCA as a consequence of an endothelial injury subsequent to a photochemical reaction between a systemically administered photosensitive dye (rose bengal) and a transillumination of the MCA with a high-intensity green light with a wavelength of 540 nm. The study was quantitated by means of pathological examination of the MCA and the brain. A platelet-rich thrombus was observed in the MCA using electron microscopical analysis based on ion beam bombardment. At 24 hr after induction of the thrombus, the brain was removed from 13 control animals, nine coronal sections were stained from each brain with triphenyltetrazoliumchloride (TTC), and the ischemic area was quantitated. A constant area of infarction was observed in the cortex and the lateral part of the basal ganglia. In a second group (n = 8), at 1 or 8 weeks after induction of the thrombosis in the MCA, the coronal sections were stained with hematoxylin and eosin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A simple and reproducible cerebral thrombosis model in rats induced by a photochemical reaction and the effect of a plasminogen-plasminogen activator chimera in this model. 836 30

In this cross-sectional study we compared the abilities of lipoprotein(a) [Lp(a)], plasminogen activator inhibitor-1 (PAI-1), and tissue plasminogen activator (TPA) to discriminate between individuals with and without a history of stroke from among subjects in a metabolic ward. A total of 210 subjects (108 men and 102 women; mean age, 63.8 years; range, 31 to 86 years) provided plasma and DNA samples for the study. Of these, 51 men and 50 women had a history of ischemic stroke. The 109 subjects without a history of stroke were compared with those with such a history for major risk factors for ischemic events. Mean plasma TPA and PAI-1 levels significantly (P < .001) discriminated among subjects younger than 70 years with a history of stroke. The mean plasma Lp(a) level of stroke subjects (21.9 mg/dL) did not differ significantly from that of control subjects (15.2 mg/dL). However, among individuals < 70 years old, Lp(a) plasma levels > 50 mg/dL were more common among stroke patients (8 with versus 1 without, P < .01 by chi 2 test). A molecular variation in the 5' flanking region of the apo(a) gene that has been related to elevated Lp(a) plasma levels (G/A-914) was not strongly correlated with circulating levels of Lp(a), nor did Lp(a) levels correlate with a polymorphism of the apo(a) gene (G/A-21), which is strongly linked (P < .001) to the G/A-914 variation. In this setting, the relation between Lp(a) and cerebral ischemia appears to be limited to individuals below 70 years with elevated (> 50 mg/dL) plasma levels of the lipoprotein.
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PMID:Plasma lipoprotein(a) levels in subjects attending a metabolic ward. Discrimination between individuals with and without a history of ischemic stroke. 854 12

Although complement activation is associated with tissue injury during inflammatory and ischemic states, complement activation in states of acute cerebral ischemia before and after administration of tissue plasminogen activator (TPA) has not yet been examined and is the focus of this investigation. Twenty-four New Zealand White rabbits weighing 3 to 3.5 kg were used for this study. Of these, 20 were subjected to intracranial autologous clot embolization via the internal carotid artery. Three hours postembolization, rabbits received an intravenous infusion of TPA (6.3 mg/kg, 20% bolus with the remainder infused over a 2-hour interval; 12 animals) or vehicle (eight animals). All animals were observed for a total of 7 or 8 hours postembolization. These two groups were compared to a cohort undergoing sham operation with subsequent TPA infusion (four animals). Plasma samples to quantify complement component C5 hemolytic activity (C5H5O) were obtained at the following time points: 30 minutes before and after clot embolization; 1 hour before and 1 hour after the initiation of therapy with TPA or vehicle and at the completion of the protocol; 7 to 8 hours after clot embolization. The C5 activation was not detected as the result of acute cerebral ischemia. However, animals receiving TPA with or without concomitant clot embolization exhibited C5 activation as assessed by a reduction in C5 hemolytic function, both 1 hour after initiation of TPA infusion (78.7 +/- 10.3% and 77.5 +/- 9.9% of baseline value, respectively; mean +/- standard error of the mean [SEM]) and at the end of the protocol, 2 hours after the completion of the TPA infusion (72.5 +/- 8.8% and 53.3 +/- 8.1%, respectively; mean +/- SEM, p < 0.05, each group). This study supports the conclusion that TPA, but not acute cerebral ischemia, may activate the complement cascade in this rabbit model of thromboembolic stroke.
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PMID:Activation of complement by tissue plasminogen activator, but not acute cerebral ischemia, in a rabbit model of thromboembolic stroke. 898 92


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