UMLS:C0917798 - FACTA Search

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

1. We studied the effects of NG-nitro-L-arginine (NOLA), a potent inhibitor of the L-arginine-nitric oxide pathway, and L-arginine, the precursor of nitric oxide, on regional cerebral blood flow, electrocortical activity and ex vivo cerebrovascular reactivity in the cat. Flow was measured via radiolabelled microspheres, and vascular responses were studied by measuring isometric tension of isolated middle cerebral arterial rings. 2. NOLA (30 mg kg-1 bolus followed by 1 mg kg-1 min-1 infusion) caused an approximately 40 mmHg elevation in the mean arterial blood pressure, a regionally heterogenous increase of the regional cerebrovascular resistance and a decrease in the regional cerebral blood flow 15 and 40 min after the start of its administration. In contrast L-arginine (30 mg kg-1 bolus followed by 10 mg kg-1 min-1 infusion) did not alter blood pressure, cerebrovascular resistance nor regional cerebral blood flow 15 min after the start of its administration. The NOLA-induced changes in tissue flow were the most pronounced in the cerebellum, pituitary and medulla oblongata, whereas there was no decrease in the flow of the cortex and white matter. 3. NOLA caused characteristic changes in total fronto-occipital EEG power and in power spectra which were unlikely to have been due to cerebral ischaemia. In addition, the ex vivo reactivity of the middle cerebral arteries showed signs of impaired endothelial nitric oxide synthesis: there were enhanced noradrenaline-induced contractions and N-ethoxycarbonyl-3-morpholino-sydnonimine (SIN-1)-induced relaxations and markedly attenuated acetylcholine- and ATP-induced relaxations after NOLA treatment. 4. The present data indicate that resting cerebral blood flow and cerebrovascular resistance are regulated by nitric oxide derived from L-arginine in a regionally heterogenous way and that exogenous L-arginine availability is not a limiting factor in this nitric oxide generation. Possibly, both the vascular endothelium and the neurons contribute to this basal nitric oxide release.
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PMID:Effects of NG-nitro-L-arginine and L-arginine on regional cerebral blood flow in the cat. 152 9

Substantial evidence exists that reactive oxygen species participate in the pathogenesis of brain damage following both sustained and transient cerebral ischemia, adversely affecting the vascular endothelium and contributing to the formation of edema. One likely triggering event for free radical damage is delocalization of protein-bound iron. The binding capacity for some iron-binding proteins is highly pH sensitive and, consequently, the release of iron is enhanced by acidosis. In this study, we explored whether enhanced acidosis during ischemia triggers the production of reactive oxygen species. To that end, enhanced acidosis was produced by inducing ischemia in hyperglycemic rats, with normoglycemic ones serving as controls. Production of H2O2, estimated from the decrease in catalase activity after 3-amino-1,2,4-triazole (AT) administration, was measured in the cerebral cortex, caudoputamen, hippocampus, and substantia nigra (SN) after 15 min of ischemia followed by 5, 15, and 45 min of recovery, respectively (in substantia nigra after 45 min of recovery only). Free iron in cerebrospinal fluid (CSF) was measured after ischemia and 45 min of recovery. Levels of total glutathione (GSH + GSSH) in cortex and hippocampus, and levels of alpha-tocopherol in cortex, were also measured after 15 min of ischemia followed by 5, 15, and 45 min of recovery. The results confirm previous findings that brief ischemia in normoglycemic animals does not measurably increase H2O2 production in AT-injected animals. Ischemia under hyperglycemic conditions likewise failed to induce increased H2O2 production. No difference in free iron in CSF was observed between animals subjected to ischemia under hyper- and normoglycemic conditions. The moderate decrease in total glutathione or alpha-tocopherol levels did not differ between normo- and hyperglycemic animals in any brain region or at any recovery time. Thus, the results failed to give positive evidence for free radical damage following brief periods of ischemia complicated by excessive acidosis. However, it is possible that free radical production is localized to a small subcellular compartment within the tissue, thereby escaping detection. Also, the results do not exclude the possibility that free radicals are pathogenetically important after ischemia of longer duration.
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PMID:Acidosis-induced ischemic brain damage: are free radicals involved? 205 Jul 47

Human platelets release two major classes of vasoactive mediators during the secretion reaction: arachidonic acid metabolites and biogenic amines. All of these compounds, in particular thromboxane A2, PGF2 alpha, and serotonin (5-HT), are potent constrictors of human cerebral arteries in vitro. This contractile action of platelet-derived vasoconstrictors, as well as their prothrombotic activity, is antagonized by the vascular endothelium. Atherosclerotic alterations of the vessel wall endothelium, typical for cerebral ischemia and stroke, are associated with platelet hyperreactivity and enhanced mediator release during stimulation. Inhibition of platelet (hyper)function by acetylsalicylic acid or ticlopidine has clear protective effects in high-risk patients, underlining the significance of these platelet-derived products for cerebral thromboembolism and vasoconstriction. Whether more selective inhibitors of thromboxane generations or action are equally effective remains to be determined.
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PMID:Platelets as a source of vasoactive mediators. 212 87

Experimental cerebral ischaemia was produced by microembolization in rats. HRP (horseradish peroxidase) was then injected into the cerebral cortex and the extracellular fluid dynamics were observed. In the control group, there was a basic pattern in the migration of the tracer. In the ischaemic group, a 'dense tracer distribution around the focus' was found in addition to the basic pattern. This phenomenon could be observed from the second day after the ischaemic insults. The perivascular DAB reaction was marked, particularly around the focus. There was a vesicular uptake of the tracer in the vascular endothelium. This phenomenon appeared almost simultaneously with the active resolution of the oedema fluid. In addition, frequent mitotic figures were seen around the focus. It was thus possible to hypothesize that the 'dense tracer distribution around the focus' appeared at the site of active tissue reaction and had a close relationship with oedema resolution.
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PMID:Dynamics of ischaemic brain oedema fluid: 'dense tracer distribution around the focus', evaluated by peroxidase injection in the rat cortex. 256 82

Potent and selective inhibition of neuronal nitric oxide synthase (nNOS) compared to endothelial NOS (eNOS) and inducible NOS (iNOS) may be useful to treat cerebral ischemia (stroke) and other neurodegenerative diseases. S-Methyl-L-thiocitrulline (Me-TC) and S-ethyl-L-thiocitrulline (Et-TC) inhibited the oxidation of L-arginine and the L-arginine-independent oxidation of NADPH by nNOS from human brain. Me-TC and Et-TC were slow, tight binding inhibitors of nNOS with second-order association rate constants (kon) of 2.6 x 10(5) M-1 s-1 and 1.3 x 10(5) M-1 s-1, respectively. The respective dissociation rate constants (koff) were 3 x 10(-4) s-1 and 0.7 x 10(-4) s-1. Thus, the Kd values calculated from koff/kon were 1.2 and 0.5 nM, respectively. L-Arginine was a competitive inhibitor of Me-TC and Et-TC binding with competition constant (Ks) values of 2.2 and 2.7 microM, respectively. The Km of nNOS for L-arginine was 1.6 microM. The active site concentration of nNOS was estimated by titration with Et-TC. Based on this active site concentration, a kcat of 0.4 s-1 for the oxidation of L-arginine, was calculated. Me-TC and Et-TC were less potent inhibitors of human iNOS (Ki values of 34 and 17 nM, respectively) and human eNOS (Ki values of 11 and 24 nM). Thus, Me-TC and Et-TC were 10- and 50-fold, respectively, more potent inhibitors of nNOS than eNOS. Furthermore, Me-TC was also 17-fold selective for rat nNOS in neuronal tissue compared to rat eNOS in vascular endothelium, suggesting that Me-TC may be selective for nNOS in vivo and therefore, may be therapeutically useful to treat neurodegenerative diseases.
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PMID:Potent and selective inhibition of human nitric oxide synthases. Selective inhibition of neuronal nitric oxide synthase by S-methyl-L-thiocitrulline and S-ethyl-L-thiocitrulline. 752 10

We examined the effects of the free radical spin trap N-tert-butyl-alpha-phenylnitrone (PBN) on focal cerebral ischemia/reperfusion injury in halothane-anesthetized rats. Ninety minutes after middle cerebral artery occlusion by an intraluminal filament, the artery was reperfused. Intravenous injections of 25 mg/kg PBN 5 min before and 30 min after insertion of the filament significantly attenuated the lesion volume measured 24 h after ischemia. During ischemia and during the first 30 min after reperfusion, cerebral blood volume and blood flow were measured by volume-sensitive and newly developed flow-sensitive magnetic resonance imaging (MRI) techniques and by laser-Doppler flowmetry. In all animals the area of decreased blood flow was larger than the area of decreased volume by a factor of 2.2. The area of the postreperfusion flow deficits matched the final lesion volumes at 24 h measured histologically much better than did the blood volume deficits in both saline and PBN-treated animals. Reperfusion led to a return of blood flow and volume to values close to the contralateral side in the PBN-treated animals, in contrast to the saline-treated control group. We conclude that in focal ischemia/reperfusion PBN provides protection of the vascular endothelium, leading to enhanced postischemic reperfusion. The implication of this is that the vascular endothelium may be a primary target for the damaging action of free radicals given the protection afforded by putative spin traps.
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PMID:Facilitation of postischemic reperfusion with alpha-PBN: assessment using NMR and Doppler flow techniques. 913 87

Many efforts have been undertaken to develop antioxidants against free radical induced brain damage, 21-aminosteroids, although accumulating in the cell membrane, thus protecting vascular endothelium from peroxidative damage hardly penetrate the blood-brain barrier. A novel group of antioxidants, the pyrrolopyrimidines, has a markedly improved ability to enter the brain parenchyma. In our current study the neuroprotective potential of the 21-aminosteroid U-74389G was compared with that of the pyrrolopyrimidine U-101033E in a rat model of reversible focal cerebral ischemia. Sprague-Dawley rats were subjected to unilateral occlusion of the middle cerebral artery with assignment to one of three treatment arms (n = 10 each), receiving either vehicle, U-74389G, or U-101033E. Regional CBF was recorded bilaterally by laser Doppler flowmetry. In addition, neurological examination was performed daily, with assessment of infarct volume at day seven. U-101033E reduced the infarct volume significantly by 51%, whereas U-74389G afforded non-significant attenuation only. U-101033E was found to improve neurological recovery promptly; animals with U-74389G began to recover only at the end of the experimental observation period. Differences in the regional CBF were not found in the contralateral hemispheres for either treatment group. We conclude that antioxidative compounds which cross the blood-brain barrier are more effective in focal cerebral ischemia than agents which predominantly act on the endothelium of cerebral microvessels.
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PMID:Neuroprotective properties of a novel antioxidant (U-101033E) with improved blood-brain barrier permeability in focal cerebral ischemia. 941 14

Oxygen free radicals, generated by cerebral ischemia, have been widely implicated in the damage of vascular endothelium. Endothelial cells have been proposed as a significant source of oxygen free radicals. In the present study, we developed an anoxia-reoxygenation (AX/RO) model using pure cultures of cerebral endothelial cells (CECs) isolated from piglet cortex to measure CEC oxygen free radical production and determine its role in AX/RO-induced CEC injury. CEC injury, as measured by lactate dehydrogenase efflux into the culture medium, increased progressively with the duration of anoxic exposure, becoming significant after 10 h. Reoxygenation significantly increased CEC anoxic injury in a time-dependent manner. A 55% increase in oxygen free radical production, determined by fluorescence detection of dihydroethidium oxidation, was measured at the end of 4-h reoxygenation in CECs subjected to AX/RO conditions that killed 40% of the cells. Blockade of oxygen free radical production with superoxide dismutase (SOD; 250 and 1000 U/ml) or oxypurinol (50 and 200 microM), a potent xanthine oxidase inhibitor, reduced this injury by 32-36% and 30-39%, respectively. Results from our in vitro model indicate that CECs produce significant amounts of oxygen free radicals following ischemia, primarily from the xanthine oxidase pathway. These radicals ultimately have a cytotoxic effect on the very cells that produced them. Thus, reductions in oxygen free radical-mediated vascular injury may contribute to improvements in neurophysiologic outcome following treatment with oxygen free radical inhibitors and scavengers.
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PMID:Xanthine oxidase-derived superoxide causes reoxygenation injury of ischemic cerebral endothelial cells. 955 65

Recent experimental investigations have emphasized the importance of assessing both acute and chronic histopathological changes occurring after cerebral ischemia. The purpose of this study was to evaluate the temporal profile of neuronal, astrocytic and microglial alterations within vulnerable regions (striatum and CA1 sector of hippocampus) following transient global ischemia. Anesthetized Wistar rats underwent 10 min of normothermic (37 degrees C) ischemia induced by bilateral carotid ligations plus hypotension (45-50 mm Hg) and were allowed to survive for periods ranging from 1 to 10 weeks (n=4-6/group) prior to quantitative histopathological analysis. Adjacent sections were examined by hematoxylin-and-eosin histopathology, immunostaining for glial fibrillary acidic protein, and B4-isolectin immunochemistry for microglia. In the striatum, normal-neuron counts were first decreased significantly at 2 weeks after the ischemic insult. Neuronal loss was associated with the proliferation of reactive microglia, which peaked at 1 week. By contrast, reactive astrocytosis displayed a more protracted pattern, with peak activation at 2 weeks. In the CA1 hippocampus, a decreased number of normal neurons was seen at 1 week post ischemia, together with a significant increase in immunoreactive microglia at that time; the latter normalized after 2 weeks. Reactive astrocytes in the CA1 hippocampus were significantly increased at 1-2 weeks after ischemia. In a subgroup of severely injured animals, foci of frank striatal infarction were associated with early and severe microglial and astrocytic proliferation at week 4 or later. Finally, cerebrovascular changes included endothelial disruption within affected areas. These observations document a subacute and chronic sequence of cellular responses following brief periods of global ischemia, involving both neurons, glia and vascular endothelium.
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PMID:Sequential analysis of subacute and chronic neuronal, astrocytic and microglial alterations after transient global ischemia in rats. 960 May 98

Inflammatory mediators secreted by activated leukocytes play a role in the pathogenesis of atherosclerosis. They may also affect the production of vasodilatory and platelet antiaggregatory factors such as nitric oxide (NO) and prostacyclin (PGI2) from the vascular endothelium. Production of NO and PGI2, the effecs of which are mediated by cyclic 3',5'-guanosine monophosphate (cGMP) and cyclic 3',5'-adenosine monophosphate (cAMP), respectively, is disturbed in atherosclerosis, whereas increased NO levels have been found in acute cerebral ischemia. To investigate leukocyte activation and its possible influence upon endothelial function in cerebral ischemia we measured plasma neutrophil gelatinase-associated lipocalin (NGAL) and soluble tumor necrosis factor receptor protein-1 (sTNFR-1) by ELISA, and intraplatelet cAMP and cGMP by radioimmunoassay in 59 patients with acute ischemic stroke or transient ischemic attack (mean age 71 years, 27 males) and after a 1-year follow-up in 57/59 (97%) patients. NGAL (152 +/- 58 vs. 126 +/- 48 microgram/l), sTNFR-1 (3.50 +/- 2.2 vs. 2.59 +/- 1.31 microgram/l), and cAMP (5.12 +/- 1.71 vs. 4.06 +/- 0.92 pmol/10(9) platelets) were higher (p < 0.001) after follow-up than in acute cerebral ischemia. At follow-up sTNFR-1 and cGMP partially correlated (r = 0.31; p < 0.05), controlling for age and platelet count. In conclusion, plasma NGAL and sTNFR-1 and intraplatelet AMP increase after acute cerebral ischemia, indicating chronic inflammatory activity and endothelial activation. Plasma sTNFR-1 levels are related to intraplatelet cGMP levels.
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PMID:Increasing levels of leukocyte-derived inflammatory mediators in plasma and cAMP in platelets during follow-up after acute cerebral ischemia. 977 47

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