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)

The influence of neuroeffector mechanisms in the regulation of postischemic cerebral blood flow was investigated by microsphere determination in 8 cats after chronic unilateral vascular deafferentation by trigeminal ganglionectomy. The animals were subjected to 90 min of reperfusion following 10 min of global ischemia induced by 4-vessel occlusion and systemic hypotension. Cortical hyperemia 30 min after reperfusion was attenuated by up to 48% in cortical gray matter ipsilateral to the side of trigeminal ganglionectomy (p less than 0.01). Axon reflex mechanisms involving the release of neuropeptides from peripheral sensory nerve fibers, such as substance P (SP), calcitonin gene-related peptide (CGRP) and neurokinin A (NKA), mediate this response. SP and NKA cause vasodilation by endothelium-dependent mechanisms (endothelium-dependent relaxing factor), whereas CGRP relaxes vascular smooth muscle by direct receptor interactions. Studies were therefore undertaken to determine the extent to which endothelium-dependent mechanisms mediate the hyperemia following global cerebral ischemia. In 7 intact cats, the postischemic response of pial arterioles to the topical application of acetylcholine (ACh; 10(-7) M), an endothelial-dependent vasodilator, was measured using a closed cranial window technique. Although ACh increased pial arteriolar caliber by 17% under resting conditions, the same dose elicited a vasoconstrictor response (87% of pre-ACh diameter 30 min after reperfusion) for the first 60 min of reperfusion after 10 min of ischemia. ACh-induced vasodilation was restored by 75 min (105%), but was less than control even at 120 min (109 vs. 117%; p less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Postischemic cerebral blood flow and neuroeffector mechanisms. 200 79

Effects of ischemia (20 min) on cerebral cortical prostanoid synthesis and microvascular responses to hypercapnia and topical acetylcholine were examined in anesthetized newborn pigs. Pial arteriolar dilation in response to hypercapnia (10% CO2 ventilation, 10 min) was absent 2 h after ischemia and reversed toward constriction by 24 h postischemia. In sham control piglets, hypercapnia increased cortical periarachnoid fluid prostanoid concentrations. After ischemia, hypercapnia did not affect prostanoid concentrations on the brain surface. Acetylcholine (10(-3) M)-induced pial arteriolar constriction was reversed toward dilation 24 h after cerebral ischemia. Further, acetylcholine-induced prostanoid synthesis was markedly attenuated after ischemia. We conclude that cerebral ischemia-reperfusion alters cerebral prostanoid synthesis and microvascular control in newborn pigs. These abnormalities persist for at least 24 h.
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PMID:Ischemia alters cerebral vascular responses to hypercapnia and acetylcholine in piglets. 291 33

The goal of this study was to determine whether endothelium-dependent responses are impaired in the cerebral microcirculation of stroke-prone spontaneously hypertensive rats (SHRSP). We measured diameters of cerebral arterioles using intravital microscopy in normotensive rats (WKY) and SHRSP (6-8 mo old). Cerebral vasodilator responses to superfusion with adenosine, which is an endothelium-independent agonist, were similar in WKY and SHRSP. In contrast, cerebral vasodilator responses to superfusion with endothelium-dependent agonists were profoundly impaired in SHRSP. Acetylcholine (10(-4) M) increased pial arteriolar diameter 23 +/- 2% (means +/- SE) in WKY and did not change arteriolar diameter in SHRSP (-2 +/- 3%, P less than 0.05 vs. WKY). Serotonin (10(-5) M) increased pial arteriolar diameter 23 +/- 1% in WKY and, in contrast, reduced diameter 11 +/- 1% in SHRSP (P less than 0.05 vs. WKY). Nitroglycerin and acetylcholine produce vasodilatation by activation of guanosine 3',5'-cyclic monophosphate (cGMP). Nitroglycerin was used to determine whether impaired responses of cerebral arterioles in SHRSP were related to altered cGMP activity. We found similar dilatation of cerebral arterioles in WKY and SHRSP in response to nitroglycerin. Thus impaired endothelium-dependent dilatation in SHRSP is not related to alteration of cGMP activity. We speculate that impairment of cerebral vasodilator responses to endothelium-dependent agonists, including vasoactive substances released by platelets, may predispose SHRSP to cerebral ischemia.
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PMID:Impairment of endothelium-dependent responses of cerebral arterioles in chronic hypertension. 312 90

Concentrations of acetylcholine and the monoaminergic neurotransmitters dopamine, serotonin and their respective metabolites 3,4-dihydroxyphenylacetic acid (DOPAC), 4-hydroxy-3-methoxy-phenylacetic acid (HVA), 5-hydroxyindolacetic acid (5-HIAA) and choline were simultaneously determined in the corpus striatum of rats after 15 min. complete cerebral ischemia (CCI) and in different intervals (1, 24, 48, 72, 96 hours) of postischemic cerebral reperfusion. Results were compared to respective sham-operated control animals. After 15 min. CCI acetylcholine concentration decreased to 15%, and dopamine concentration to 56% of the control values. The metabolite levels of DOPAC decreased to 40% and HVA to 64% of the control values. Acetylcholine, dopamine, serotonin and choline concentrations were not changed significantly after reperfusion. The metabolites HVA and 5-HIAA showed their maximum increases after 1 and 24 hours of reperfusion, additionally HVA was decreased both, after 72 and 96 hours of reperfusion. The data indicate that surprisingly little permanent damage could be caused by a 15 min. ischemia in the striatum. Tissue levels of the neurotransmitters appeared differentially altered but similarly regulated during ischemia and subsequent recirculation. Acetylcholine and dopamine levels decreased profoundly during ischemia. However, acetylcholine levels could be compensated rapidly during reperfusion, whereas the dopaminergic system showed a long-lasting change in its turnover rate. Although serotonin levels were unaffected by CCI, there was an increase of its presumed turnover rate during reperfusion.
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PMID:Effects of long-term recovery from transient cerebral ischemia in rat brain: tissue levels of acetylcholine, monoamines, and their metabolites. 750 89

1. Cerebral ischemia of 5 min duration was induced in unanesthetized gerbils by bilateral occlusion of the carotid arteries. 2. The extent of cerebral damage was assessed by the elevation of motor activity in comparison with control animals and by a histological assessment of the extent of neuronal degeneration in the CA1 area of the hippocampus. 3. Atropine, an antagonist of ACh, at either a low (1 mg/kg) or a high (10 mg/kg) dose administered 15 min prior to the ischemic episode, did not confer protection against cerebral ischemic damage. 4. This finding suggests that ACh does not play a critical role in the generation of ischemia reperfusion injury.
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PMID:Atropine and cerebral ischemic injury in the Mongolian gerbil. 795 34

Enhancing the availability of endogenous acetylcholine by inhibition of cholinesterase with physostigmine, eptastigmine or soman at sub-toxic doses increases cerebral blood flow (CBF) and the response of this variable to changes in PaCO2. These effects are not correlated with metabolic activation, suggesting that the function of the cholinergic vasodilation is not merely to supply metabolic substrates. Since choline (Ch) can exchange between blood and the brain extracellular milieu the stage is set for possible feedback interactions between ACh synthesis and CBF. A negative feedback of CBF on ACh synthesis under conditions of a negative arteriovenous (A-V) difference for Ch across cerebral capillaries may contribute to stabilize GBF in ischemia. Eptastigmine and physostigmine significantly improve perfusion in experimental models of focal cerebral ischemia and traumatic brain injury respectively. During the short periods of time in which the A-V difference for Ch across the brain is positive, a positive feedback between cerebral free Ch and CBF may enhance the ability of the brain to recover Ch from the circulation for synthesis of membrane phospholipids. A loss of cholinergic cerebrovascular control may thus impair the survival of all cells within the CNS and contribute to the pathophysiology of dementia. Perhaps the view that the loss of cholinergic cells is the end point of Alzheimer's dementia could be modified to state that a cholinergic deficit may be the starting point of a decline in cerebral phospholipid turnover and cell membrane renewal that could lead to a generalized deterioration of cerebral function.
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PMID:Cholinergic control of cerebral blood flow in stroke, trauma and aging. 863 31

In order to investigate changes in levels of monoamines and their related substances together with those of other neurotransmitters (acetylcholine and GABA), choline and substances related to energy metabolism (ATP, lactate and glucose) accompanying incomplete cerebral ischemia, a bilateral common carotid artery occlusion model of spontaneously hypertensive rats (SHR) was utilized. Animals were subjected to 1 or 2 h ischemia. Then the concentrations of substances were measured in the cerebral cortex, hippocampus and striatum and compared with control values. Due to the incomplete ischemia, ATP showed a moderate decrease, while lactate and choline increased remarkably, and GABA underwent a moderate increase. With regard to monoamines, both noradrenaline and serotonin levels were reduced in the cerebral cortex and hippocampus, whereas dopamine levels increased in the hippocampus. All monoamine metabolites, i.e. metabolites by monoamine oxidase (MAO), metabolites by catechol-O-methyltransferase (COMT), and metabolites by both MAO and COMT, underwent increases. The 3-methoxytyramine level in particular showed marked increases. Furthermore levels of precursor amino acids as well as 5-hydroxytryptophan rose. Acetylcholine decreased moderately only in the cerebral cortex. Among these changes, sustained increases in all the monoamine metabolites were characteristic of changes in the incompletely ischemic brain, suggesting that both COMT and MAO retain their activities in the incompletely ischemic brain.
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PMID:Changes in levels of monoamines and their metabolites in incompletely ischemic brains of spontaneously hypertensive rats. 878 4

Electrophysiological experiments were performed in vitro and in vivo to characterize the inhibitory effects of 6,7-dichloro-5-nitro-1,4-dihydro-2,3-quinoxalinedione (ACEA 1021; licostinel) on rat brain glutamate receptors. In vitro, ACEA 1021 was tested on N-methyl-D-aspartate (NMDA)-induced depolarizations in the neocortical slice preparation and on epileptiform activity in Mg2+-free hippocampal slices, which is known to be NMDA receptor mediated. In both in vitro models, ACEA 1021 exhibited antagonistic effects on the NMDA receptor-mediated responses. Selectivity tests in the neocortical slice preparation, using NMDA, kainate and alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) showed that 10 microM ACEA 1021 reduced NMDA and kainate responses to 27.9 and 79.9% of the control value, respectively, whereas responses to AMPA were increased by 2.4% above the control value, thus showing that at this concentration ACEA 1021 acts preferentially at NMDA receptors. However, at 30 microM, all the NMDA-, AMPA- and kainate-induced responses were reduced. In vivo, ACEA 1021 was tested on NMDA-induced excitation in the CA1 region. After systemic administration of ACEA 1021, central effects were observed at 10 mg/kg i.v. in the CA1 region. These results indicate that ACEA 1021 is centrally active and inhibits NMDA receptor-mediated responses. Interestingly, selectivity tests in the CA1 region did not show clear differences in the action of ACEA 1021 on NMDA- and AMPA-induced excitations. Furthermore, ACh-induced excitations were also reduced. Thus, at low concentrations, ACEA 1021 seems to be a selective antagonist at the strychnine-insensitive glycine site of the NMDA receptor. However, at 30 microM in vitro and at 10 mg/kg in vivo, non-NMDA receptor-mediated actions of ACEA 1021 are observed. Our results suggest that these additional effects of ACEA 1021 may contribute to its anticonvulsive properties in mice as well as to its neuroprotective properties in animal models of cerebral ischemia.
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PMID:Reevaluation of ACEA 1021 as an antagonist at the strychnine-insensitive glycine site of the N-methyl-D-aspartate receptor. 970 86

Estrogen protects the brain from experimental cerebral ischemia, likely through both vascular and neuronal cellular mechanisms. The purpose of this study was to determine whether chronic estrogen treatment in males and repletion in ovariectomized (Ovx) females reverses abnormalities in pial arteriolar reactivity during reperfusion from global forebrain ischemia (4-vessel occlusion, 15 min) and whether the site of protection is vascular endothelium. Male and Ovx female rats were implanted with either placebo or a 25-microg 17 beta-estradiol pellet 10 days before ischemia. With the use of intravital microscopy, pial vessel dilation to ACh (10 microM) and S-nitroso-N-acetyl-penicillamine (SNAP; 1 microM) and vasoconstriction to serotonin (10 microM) was examined in situ at 30--60 min of reperfusion. Postischemic changes in vessel diameter were compared with preischemic values for each agent. Postischemic response to both ACh and SNAP was lost in males and Ovx females, but not in estrogen pellet-implanted males and estrogen-implanted Ovx females, suggesting that estrogen protects both endothelial and smooth muscle-mediated vasodilation. Ischemia blunted vessel constriction to serotonin regardless of treatment. These data demonstrate that estrogen acts as a vasoprotective agent within the cerebral circulation and can improve microvascular function under conditions of an acutely evolving ischemic pathology.
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PMID:Estrogen restores postischemic pial microvascular dilation. 1140 80

Cerebral ischaemia is considered to be an important cause of central nervous system dysfunction in heat stress. We hypothesized that heat stress would alter the reactivity of isolated carotid artery to vasoactive agents. Carotid arteries were isolated from broiler chickens maintained either at 23-24 degrees C with 55-65% humidity (control conditions) or exposed to 40 +/- 1 degrees C with 35% humidity for 4 h (heat stress). Contractions were elicited with vasoconstrictors such as 5-HT, phenylephrine, guanfacine and CaCl(2) (K(+)-depolarized) in endothelium-denuded arterial rings. Heat stress significantly increased the potency of 5-HT, but had no effect on the sensitivity of the vessel to phenylephrine or guanfacine. In contrast, it markedly decreased the potency and efficacy of CaCl(2). Vasodilator responses to ACh (endothelium-intact) and sodium nitroprusside (endothelium-denuded), however, were unaffected. Although cyclopiazonic acid (10 microm) significantly decreased 5-HT responses in both the conditions, the agonist was still more potent in heat stress. Extracellular Ca(2)(+) removal had no effect on contractions caused by 5-HT in control conditions, but it significantly decreased the agonist potency in heat stress. Interestingly, nifedipine (1 microm) markedly inhibited 5-HT-induced contractions both in control conditions and in heat stress, implying an inhibitory effect on both Ca(2)(+) influx and release. Thus, nifedipine had a markedly greater inhibitory effect on 5-HT-induced contractions in heat stress compared with control conditions. The results suggest that heat stress increased the vasoconstrictor responses to 5-HT by a mechanism that involved extracellular Ca(2)(+) influx through nifedipine-sensitive L-type calcium channels.
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PMID:Influence of heat stress on the reactivity of isolated chicken carotid artery to vasoactive agents. 1772 Jul 46

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